# -*- coding: utf-8 -*- import json import argparse import os from lxml import etree import traceback from collections import defaultdict # --- Namespaces --- # Se añade el namespace 'st' para Structured Text ns = { "iface": "http://www.siemens.com/automation/Openness/SW/Interface/v5", "flg": "http://www.siemens.com/automation/Openness/SW/NetworkSource/FlgNet/v4", "st": "http://www.siemens.com/automation/Openness/SW/NetworkSource/StructuredText/v3" # <--- Added SCL namespace } # --- Helper Functions --- def get_multilingual_text(element, default_lang="en-US", fallback_lang="it-IT"): # (Sin cambios respecto a la versión anterior) if element is None: return "" try: xpath_expr = ( f".//*[local-name()='MultilingualTextItem'][*[local-name()='AttributeList']/*[local-name()='Culture' and text()='{default_lang}']]" f"/*[local-name()='AttributeList']/*[local-name()='Text']" ) text_items = element.xpath(xpath_expr) if text_items and text_items[0].text is not None: return text_items[0].text.strip() xpath_expr = ( f".//*[local-name()='MultilingualTextItem'][*[local-name()='AttributeList']/*[local-name()='Culture' and text()='{fallback_lang}']]" f"/*[local-name()='AttributeList']/*[local-name()='Text']" ) text_items = element.xpath(xpath_expr) if text_items and text_items[0].text is not None: return text_items[0].text.strip() xpath_expr = f".//*[local-name()='MultilingualTextItem']/*[local-name()='AttributeList']/*[local-name()='Text']" text_items = element.xpath(xpath_expr) if text_items and text_items[0].text is not None: return text_items[0].text.strip() return "" except Exception as e: print(f"Advertencia: Error extrayendo MultilingualText: {e}") return "" def get_symbol_name(symbol_element): # (Sin cambios respecto a la versión anterior) if symbol_element is None: return None try: components = symbol_element.xpath("./*[local-name()='Component']/@Name") return ".".join(f'"{c}"' for c in components) if components else None except Exception as e: print(f"Advertencia: Excepción en get_symbol_name: {e}") return None def parse_access(access_element): # (Sin cambios respecto a la versión anterior) if access_element is None: return None uid = access_element.get("UId"); scope = access_element.get("Scope") info = {"uid": uid, "scope": scope, "type": "unknown"} symbol = access_element.xpath("./*[local-name()='Symbol']") constant = access_element.xpath("./*[local-name()='Constant']") if symbol: info["type"] = "variable" info["name"] = get_symbol_name(symbol[0]) if info["name"] is None: info["type"] = "error_parsing_symbol"; print(f"Error: No se pudo parsear nombre símbolo Access UID={uid}"); return info elif constant: info["type"] = "constant" const_type_elem = constant[0].xpath("./*[local-name()='ConstantType']") const_val_elem = constant[0].xpath("./*[local-name()='ConstantValue']") info["datatype"] = const_type_elem[0].text if const_type_elem and const_type_elem[0].text is not None else "Unknown" value_str = const_val_elem[0].text if const_val_elem and const_val_elem[0].text is not None else None if value_str is None: info["type"] = "error_parsing_constant"; info["value"] = None; print(f"Error: Constante sin valor Access UID={uid}"); return info if info["datatype"] == "Unknown": val_lower = value_str.lower() if val_lower in ["true", "false"]: info["datatype"] = "Bool" elif value_str.isdigit() or (value_str.startswith('-') and value_str[1:].isdigit()): info["datatype"] = "Int" elif '.' in value_str: try: float(value_str); info["datatype"] = "Real" except ValueError: pass elif '#' in value_str: info["datatype"] = "TypedConstant" info["value"] = value_str dtype_lower = info["datatype"].lower() val_str_processed = value_str.split('#')[-1] if '#' in value_str else value_str try: if dtype_lower in ['int', 'dint', 'udint', 'sint', 'usint', 'lint', 'ulint', 'word', 'dword', 'lword', 'byte']: info["value"] = int(val_str_processed) elif dtype_lower == 'bool': info["value"] = (val_str_processed.lower() == 'true' or val_str_processed == '1') elif dtype_lower in ['real', 'lreal']: info["value"] = float(val_str_processed) elif dtype_lower == 'typedconstant': info["value"] = value_str except (ValueError, TypeError) as e: print(f"Advertencia: No se pudo convertir valor '{val_str_processed}' a {dtype_lower} UID={uid}. Error: {e}"); info["value"] = value_str else: info["type"] = "unknown_structure"; print(f"Advertencia: Access UID={uid} no es Symbol ni Constant."); return info if info['type'] == 'variable' and info.get('name') is None: print(f"Error Interno: parse_access var sin nombre UID {uid}."); info['type'] = "error_no_name"; return info return info def parse_part(part_element): # (Sin cambios respecto a la versión anterior) if part_element is None: return None uid = part_element.get('UId'); name = part_element.get('Name') if not uid or not name: print(f"Error: Part sin UID o Name: {etree.tostring(part_element, encoding='unicode')}"); return None template_values = {} try: for tv in part_element.xpath("./*[local-name()='TemplateValue']"): tv_name = tv.get('Name'); tv_type = tv.get('Type') if tv_name and tv_type: template_values[tv_name] = tv_type except Exception as e: print(f"Advertencia: Error extrayendo TemplateValues Part UID={uid}: {e}") negated_pins = {} try: for negated_elem in part_element.xpath("./*[local-name()='Negated']"): negated_pin_name = negated_elem.get('Name') if negated_pin_name: negated_pins[negated_pin_name] = True except Exception as e: print(f"Advertencia: Error extrayendo Negated Pins Part UID={uid}: {e}") return {'uid': uid, 'type': name, 'template_values': template_values, 'negated_pins': negated_pins} def parse_call(call_element): # (Mantiene la corrección para DB de instancia) if call_element is None: return None uid = call_element.get("UId") if not uid: print(f"Error: Call encontrado sin UID: {etree.tostring(call_element, encoding='unicode')}"); return None call_info_elem = call_element.xpath("./*[local-name()='CallInfo']") if not call_info_elem: print(f"Error: Call UID {uid} sin elemento CallInfo."); return None call_info = call_info_elem[0] block_name = call_info.get("Name") block_type = call_info.get("BlockType") instance_name = None; instance_scope = None if not block_name or not block_type: print(f"Error: CallInfo para UID {uid} sin Name o BlockType."); return None if block_type == "FB": instance_elem_list = call_info.xpath("./*[local-name()='Instance']") if instance_elem_list: instance_elem = instance_elem_list[0] instance_scope = instance_elem.get("Scope") component_elem_list = instance_elem.xpath("./*[local-name()='Component']") # Busca Component directo if component_elem_list: component_elem = component_elem_list[0] db_name_raw = component_elem.get('Name') if db_name_raw: instance_name = f'"{db_name_raw}"' # Añade comillas else: print(f"Advertencia: dentro de para FB Call UID {uid} no tiene atributo 'Name'.") else: print(f"Advertencia: No se encontró dentro de para FB Call UID {uid}. No se pudo obtener el nombre del DB.") else: print(f"Advertencia: FB Call '{block_name}' UID {uid} no tiene elemento .") call_data = {"uid": uid, "type": "Call", "block_name": block_name, "block_type": block_type} if instance_name: call_data["instance_db"] = instance_name if instance_scope: call_data["instance_scope"] = instance_scope return call_data # EN x1_to_json.py, junto a otras funciones auxiliares def reconstruct_scl_from_tokens(st_node): """ Intenta reconstruir una cadena SCL a partir de los elementos hijos de un nodo . Es una aproximación y puede no ser perfecta. """ if st_node is None: return "// Error: StructuredText node not found.\n" scl_parts = [] # Obtener todos los elementos hijos directos en orden children = st_node.xpath("./st:*", namespaces=ns) for elem in children: tag = etree.QName(elem.tag).localname if tag == "Token": scl_parts.append(elem.get("Text", "")) elif tag == "Blank": scl_parts.append(" " * int(elem.get("Num", 1))) elif tag == "NewLine": # Añadir un salto de línea real. strip() al final de la línea actual # para evitar espacios extra antes del salto. scl_parts.append("\n") elif tag == "Access": # Reconstruir acceso (simplificado) symbol_parts = [] # Buscar componentes y puntos dentro del símbolo de este acceso symbol_children = elem.xpath(".//st:Component | .//st:Token[@Text='.']", namespaces=ns) for sym_child in symbol_children: sym_tag = etree.QName(sym_child.tag).localname if sym_tag == "Component": comp_name = sym_child.get("Name", "_ERR_") # Comprobar si necesita comillas (podríamos necesitar parsear BooleanAttribute) # Simplificación: Añadir comillas si el nombre original parece tenerlas (o siempre para DBs?) # Aquí usamos el nombre tal cual viene en el XML por ahora # Si el XML tiene true podríamos usarlo has_quotes_elem = sym_child.xpath("../st:BooleanAttribute[@Name='HasQuotes']/text()", namespaces=ns) has_quotes = has_quotes_elem and has_quotes_elem[0].lower() == 'true' # Reconstrucción básica: poner comillas si HasQuotes es true o si es el primer componente (posible DB) # Esto es heurístico y puede fallar. # if has_quotes or (len(symbol_parts) == 0 and '.' not in comp_name): # Asumir primer componente es DB # symbol_parts.append(f'"{comp_name}"') # else: # symbol_parts.append(comp_name) # Versión más simple: usar nombre tal cual del XML symbol_parts.append(comp_name) elif sym_tag == "Token": # Solo nos interesa el punto aquí symbol_parts.append(".") access_str = "".join(symbol_parts) # Manejar llamadas a funciones/FB dentro de Access Scope="Call" if elem.get("Scope") == "Call": instruction_elem = elem.xpath("./st:Instruction", namespaces=ns) if instruction_elem: instr_name = instruction_elem[0].get("Name", "_UNKNOWN_CALL_") # Reconstrucción básica de parámetros (muy simplificada) # Necesitaría parsear Parameters, Tokens '(', ')', ':=', '=>', etc. # Por ahora, solo añadimos el nombre y paréntesis vacíos access_str = f"{instr_name}()" # Placeholder muy básico scl_parts.append(access_str) elif tag == "Comment" or tag == "LineComment": # Añadir comentarios comment_text = elem.text if elem.text else "" if tag == "Comment" and "\n" in comment_text: # Comentario multi-línea scl_parts.append(f"(*{comment_text}*)") else: # Comentario de una línea scl_parts.append(f"// {comment_text}") else: # Ignorar otros tipos de nodos por ahora o añadir manejo específico pass # Unir todas las partes, limpiar espacios extra alrededor de saltos de línea full_scl = "".join(scl_parts) # Limpieza básica de formato lines = [line.rstrip() for line in full_scl.split('\n')] # Re-ensamblar, asegurando que líneas vacías (solo espacios previos) se mantengan cleaned_scl = "\n".join(lines) # Eliminar múltiples líneas vacías consecutivas (opcional) # import re # cleaned_scl = re.sub(r'\n\s*\n', '\n\n', cleaned_scl) return cleaned_scl.strip() # Quitar espacios/saltos al inicio/final # --- Función parse_network con XPath corregido para Title/Comment --- # --- Función parse_network MODIFICADA (maneja multi-destino en Wire) --- def parse_network(network_element): """ Parsea una red, extrae lógica y añade conexiones EN implícitas. Maneja wires con múltiples destinos. """ if network_element is None: return {"id": "ERROR", "title": "Invalid Network Element", "comment": "", "logic": [], "error": "Input element was None"} network_id = network_element.get("ID") # --- Extracción Título/Comentario (sin cambios respecto a la última versión) --- title_element = network_element.xpath( ".//*[local-name()='MultilingualText'][@CompositionName='Title']" ) network_title = get_multilingual_text(title_element[0]) if title_element else f"Network {network_id}" comment_element = network_element.xpath( "./*[local-name()='ObjectList']/*[local-name()='MultilingualText'][@CompositionName='Comment']" ) network_comment = get_multilingual_text(comment_element[0]) if comment_element else "" flgnet_list = network_element.xpath(".//flg:FlgNet", namespaces=ns) if not flgnet_list: # print(f"Advertencia: FlgNet no encontrado en Red ID={network_id}. Puede estar vacía o ser comentario.") return {"id": network_id, "title": network_title, "comment": network_comment, "logic": [], "error": "FlgNet not found"} flgnet = flgnet_list[0] # 1. Parsear Access, Parts y Calls (sin cambios) access_map = {acc_info["uid"]: acc_info for acc in flgnet.xpath(".//flg:Access", namespaces=ns) if (acc_info := parse_access(acc)) and acc_info['type'] != 'unknown'} parts_and_calls_map = {} instruction_elements = flgnet.xpath(".//flg:Part | .//flg:Call", namespaces=ns) for element in instruction_elements: parsed_info = None tag_name = etree.QName(element.tag).localname # Obtener nombre local de la etiqueta if tag_name == "Part": parsed_info = parse_part(element) elif tag_name == "Call": parsed_info = parse_call(element) if parsed_info and "uid" in parsed_info: parts_and_calls_map[parsed_info["uid"]] = parsed_info else: print(f"Advertencia: Se ignoró un Part/Call inválido en la red {network_id}") # --- 2. Parsear Wires (MODIFICADO para multi-destino) --- wire_connections = defaultdict(list) # (dest_uid, dest_pin) -> [(src_uid, src_pin), ...] source_connections = defaultdict(list) # (src_uid, src_pin) -> [(dest_uid, dest_pin), ...] eno_outputs = defaultdict(list) # src_uid -> [(dest_uid, dest_pin), ...] (conexiones DESDE eno) flg_ns_uri = ns["flg"] # Cache namespace URI qname_powerrail = etree.QName(flg_ns_uri, "Powerrail") qname_identcon = etree.QName(flg_ns_uri, "IdentCon") qname_namecon = etree.QName(flg_ns_uri, "NameCon") for wire in flgnet.xpath(".//flg:Wire", namespaces=ns): children = wire.getchildren() if len(children) < 2: continue # Ignorar wires sin fuente y al menos un destino source_elem = children[0] source_uid, source_pin = None, None # Determinar fuente if source_elem.tag == qname_powerrail: source_uid, source_pin = "POWERRAIL", "out" elif source_elem.tag == qname_identcon: source_uid, source_pin = source_elem.get("UId"), "value" # Acceso a variable/constante elif source_elem.tag == qname_namecon: source_uid, source_pin = source_elem.get("UId"), source_elem.get("Name") # Salida de instrucción if source_uid is None: continue # No se pudo determinar la fuente source_info = (source_uid, source_pin) # Par de fuente # Iterar sobre TODOS los posibles destinos (desde el segundo hijo en adelante) for dest_elem in children[1:]: dest_uid, dest_pin = None, None # Determinar destino if dest_elem.tag == qname_identcon: dest_uid, dest_pin = dest_elem.get("UId"), "value" # Entrada a variable/constante (Coil, etc.) elif dest_elem.tag == qname_namecon: dest_uid, dest_pin = dest_elem.get("UId"), dest_elem.get("Name") # Entrada a instrucción # Guardar conexiones si son válidas if dest_uid is not None and dest_pin is not None: # Mapa de Conexiones (Destino -> [Fuentes]) dest_key = (dest_uid, dest_pin) if source_info not in wire_connections[dest_key]: wire_connections[dest_key].append(source_info) # Mapa de Fuentes (Fuente -> [Destinos]) source_key = (source_uid, source_pin) dest_info = (dest_uid, dest_pin) if dest_info not in source_connections[source_key]: source_connections[source_key].append(dest_info) # Registrar conexiones que SALEN de un pin 'eno' if source_pin == "eno" and source_uid in parts_and_calls_map: if dest_info not in eno_outputs[source_uid]: eno_outputs[source_uid].append(dest_info) # else: # Debug opcional si un elemento no es destino válido # print(f"Advertencia: Elemento en Wire {wire.get('UId')} no es destino válido: {etree.tostring(dest_elem)}") # --- FIN MODIFICACIÓN Wire --- # 3. Construcción Lógica Inicial (sin cambios) all_logic_steps = {} functional_block_types = ['Move', 'Add', 'Sub', 'Mul', 'Div', 'Mod', 'Convert', 'Call', 'Se', 'Sd', 'BLKMOV'] rlo_generators = ['Contact', 'O', 'Eq', 'Ne', 'Gt', 'Lt', 'Ge', 'Le', 'And', 'Xor', 'PBox', 'NBox'] for instruction_uid, instruction_info in parts_and_calls_map.items(): instruction_repr = {"instruction_uid": instruction_uid, **instruction_info}; instruction_repr["inputs"] = {}; instruction_repr["outputs"] = {} possible_input_pins = set(['en', 'in', 'in1', 'in2', 'in3', 'in4', 's', 'r', 'clk', 'cu', 'cd', 'ld', 'pv', 'tv', 'bit', 'operand', 'pre', 'SRCBLK']) for dest_pin_name in possible_input_pins: dest_key = (instruction_uid, dest_pin_name) if dest_key in wire_connections: sources_list = wire_connections[dest_key]; input_sources_repr = [] for source_uid, source_pin in sources_list: if source_uid == "POWERRAIL": input_sources_repr.append({"type": "powerrail"}) elif source_uid in access_map: input_sources_repr.append(access_map[source_uid]) elif source_uid in parts_and_calls_map: input_sources_repr.append({"type": "connection", "source_instruction_type": parts_and_calls_map[source_uid]["type"], "source_instruction_uid": source_uid, "source_pin": source_pin}) else: input_sources_repr.append({"type": "unknown_source", "uid": source_uid}) if len(input_sources_repr) == 1: instruction_repr["inputs"][dest_pin_name] = input_sources_repr[0] elif len(input_sources_repr) > 1: instruction_repr["inputs"][dest_pin_name] = input_sources_repr possible_output_pins = set(['out', 'out1', 'Q', 'eno', 'RET_VAL', 'DSTBLK', 'q', 'rt', 'rtbcd', 'cv', 'cvbcd']) for source_pin_name in possible_output_pins: source_key = (instruction_uid, source_pin_name) if source_key in source_connections: for dest_uid, dest_pin in source_connections[source_key]: if dest_uid in access_map: if source_pin_name not in instruction_repr["outputs"]: instruction_repr["outputs"][source_pin_name] = [] if access_map[dest_uid] not in instruction_repr["outputs"][source_pin_name]: instruction_repr["outputs"][source_pin_name].append(access_map[dest_uid]) all_logic_steps[instruction_uid] = instruction_repr # 4. Inferencia EN (sin cambios) processed_blocks_en_inference = set(); something_changed = True; inference_passes = 0; max_inference_passes = len(all_logic_steps) + 5 try: sorted_uids_for_en = sorted(all_logic_steps.keys(), key=lambda x: int(x) if x.isdigit() else float('inf')) except ValueError: sorted_uids_for_en = sorted(all_logic_steps.keys()) ordered_logic_list_for_en = [all_logic_steps[uid] for uid in sorted_uids_for_en if uid in all_logic_steps] while something_changed and inference_passes < max_inference_passes: something_changed = False; inference_passes += 1 for i, instruction in enumerate(ordered_logic_list_for_en): part_uid = instruction["instruction_uid"]; part_type_original = instruction["type"].replace('_scl', '').replace('_error', '') if (part_type_original in functional_block_types and "en" not in instruction["inputs"] and part_uid not in processed_blocks_en_inference): inferred_en_source = None if i > 0: for j in range(i - 1, -1, -1): prev_instr = ordered_logic_list_for_en[j]; prev_uid = prev_instr["instruction_uid"]; prev_type_original = prev_instr["type"].replace('_scl', '').replace('_error', '') if prev_type_original in rlo_generators: inferred_en_source = {"type": "connection", "source_instruction_uid": prev_uid, "source_instruction_type": prev_type_original, "source_pin": "out"}; break elif prev_type_original in functional_block_types: source_key_eno = (prev_uid, "eno") if source_key_eno in source_connections: inferred_en_source = {"type": "connection", "source_instruction_uid": prev_uid, "source_instruction_type": prev_type_original, "source_pin": "eno"}; break else: continue elif prev_type_original in ['Coil', 'SCoil', 'RCoil', 'SetCoil', 'ResetCoil', 'SdCoil']: break if inferred_en_source: all_logic_steps[part_uid]["inputs"]["en"] = inferred_en_source; processed_blocks_en_inference.add(part_uid); something_changed = True # 5. Añadir lógica ENO interesante (sin cambios) for source_instr_uid, eno_destinations in eno_outputs.items(): if source_instr_uid not in all_logic_steps: continue interesting_eno_logic = [] for dest_uid, dest_pin in eno_destinations: is_direct_en_connection = False if dest_uid in parts_and_calls_map and dest_pin == 'en': try: source_idx = sorted_uids_for_en.index(source_instr_uid); dest_idx = sorted_uids_for_en.index(dest_uid) if dest_idx == source_idx + 1 and parts_and_calls_map[dest_uid]['type'] in functional_block_types: is_direct_en_connection = True except ValueError: pass if not is_direct_en_connection: target_info = {"target_pin": dest_pin} if dest_uid in parts_and_calls_map: target_info.update({"target_type": "instruction", "target_uid": dest_uid, "target_name": parts_and_calls_map[dest_uid].get("name", parts_and_calls_map[dest_uid].get("type"))}) elif dest_uid in access_map: target_info.update({"target_type": "operand", "target_details": access_map[dest_uid]}) else: target_info.update({"target_type": "unknown", "target_uid": dest_uid}) interesting_eno_logic.append(target_info) if interesting_eno_logic: all_logic_steps[source_instr_uid]["eno_logic"] = interesting_eno_logic # 6. Ordenar y Devolver (sin cambios) network_logic_final = [all_logic_steps[uid] for uid in sorted_uids_for_en if uid in all_logic_steps] return {"id": network_id, "title": network_title, "comment": network_comment, "logic": network_logic_final} # --- Función Principal convert_xml_to_json (sin cambios en su flujo general) --- def convert_xml_to_json(xml_filepath, json_filepath): print(f"Iniciando conversión de '{xml_filepath}' a '{json_filepath}'...") if not os.path.exists(xml_filepath): print(f"Error Crítico: Archivo XML no encontrado: '{xml_filepath}'"); return try: print("Paso 1: Parseando archivo XML...") parser = etree.XMLParser(remove_blank_text=True) tree = etree.parse(xml_filepath, parser) root = tree.getroot() print("Paso 1: Parseo XML completado.") print("Paso 2: Buscando el bloque SW.Blocks.FC...") # Asume FC primero block_list = root.xpath("//*[local-name()='SW.Blocks.FC']") block_type_found = "FC" if not block_list: block_list = root.xpath("//*[local-name()='SW.Blocks.FB']") # Busca FB si no hay FC block_type_found = "FB" if not block_list: print("Error Crítico: No se encontró ni ."); return else: print("Advertencia: Se encontró en lugar de .") the_block = block_list[0] print(f"Paso 2: Bloque SW.Blocks.{block_type_found} encontrado (ID={the_block.get('ID')}).") print("Paso 3: Extrayendo atributos del bloque...") attribute_list_node = the_block.xpath("./*[local-name()='AttributeList']") block_name_val, block_number_val, block_lang_val = "Unknown", None, "Unknown" if attribute_list_node: attr_list = attribute_list_node[0] name_node = attr_list.xpath("./*[local-name()='Name']/text()") block_name_val = name_node[0].strip() if name_node else block_name_val num_node = attr_list.xpath("./*[local-name()='Number']/text()") try: block_number_val = int(num_node[0]) if num_node else None except ValueError: block_number_val = None lang_node = attr_list.xpath("./*[local-name()='ProgrammingLanguage']/text()") block_lang_val = lang_node[0].strip() if lang_node else block_lang_val print(f"Paso 3: Atributos: Nombre='{block_name_val}', Número={block_number_val}, Lenguaje='{block_lang_val}'") else: print(f"Advertencia: No se encontró AttributeList para el bloque {block_type_found}.") block_comment_val = "" comment_node_list = the_block.xpath("./*[local-name()='ObjectList']/*[local-name()='MultilingualText'][@CompositionName='Comment']") if comment_node_list: block_comment_val = get_multilingual_text(comment_node_list[0]); print(f"Paso 3b: Comentario bloque: '{block_comment_val[:50]}...'") result = {"block_name": block_name_val, "block_number": block_number_val, "language": block_lang_val, "block_comment": block_comment_val, "interface": {}, "networks": []} print("Paso 4: Extrayendo la interfaz del bloque...") if attribute_list_node: interface_node_list = attribute_list_node[0].xpath(".//*[local-name()='Interface']") if interface_node_list: interface_node = interface_node_list[0] print("Paso 4: Nodo Interface encontrado.") for section in interface_node.xpath(".//iface:Section", namespaces=ns): section_name = section.get("Name"); if not section_name: continue members = [] for member in section.xpath("./iface:Member", namespaces=ns): member_name = member.get("Name"); member_dtype = member.get("Datatype") if member_name and member_dtype: members.append({"name": member_name, "datatype": member_dtype}) if members: result["interface"][section_name] = members if not result["interface"]: print("Advertencia: Interface sin secciones iface:Section válidas.") else: print("Advertencia: No se encontró dentro de .") if not result["interface"]: print("Advertencia: No se pudo extraer información de la interfaz.") print("Paso 5: Extrayendo y PROCESANDO lógica de redes (CompileUnits)...") networks_processed_count = 0 result["networks"] = [] # Initialize networks list here object_list_node = the_block.xpath("./*[local-name()='ObjectList']") if object_list_node: compile_units = object_list_node[0].xpath("./*[local-name()='SW.Blocks.CompileUnit']") print(f"Paso 5: Se encontraron {len(compile_units)} elementos SW.Blocks.CompileUnit.") for network_elem in compile_units: networks_processed_count += 1 network_id = network_elem.get("ID") if not network_id: print(" Advertencia: Se encontró CompileUnit sin ID. Saltando.") continue # --- Detectar lenguaje de la red --- attribute_list = network_elem.xpath("./*[local-name()='AttributeList']") programming_language = "LAD" # Default a LAD si no se especifica network_source_node = None # Nodo if attribute_list: lang_node = attribute_list[0].xpath("./*[local-name()='ProgrammingLanguage']/text()") if lang_node: programming_language = lang_node[0].strip() # Obtener el nodo NetworkSource para pasarlo a los parsers network_source_list = attribute_list[0].xpath("./*[local-name()='NetworkSource']") if network_source_list: network_source_node = network_source_list[0] print(f" - Procesando Red ID={network_id}, Lenguaje={programming_language}") # --- Extraer título y comentario (común) --- title_element = network_elem.xpath( ".//*[local-name()='MultilingualText'][@CompositionName='Title']" ) network_title = get_multilingual_text(title_element[0]) if title_element else f"Network {network_id}" comment_element = network_elem.xpath( "./*[local-name()='ObjectList']/*[local-name()='MultilingualText'][@CompositionName='Comment']" ) network_comment = get_multilingual_text(comment_element[0]) if comment_element else "" # --- Procesar según el lenguaje --- parsed_network_data = None if programming_language == "SCL": structured_text_node = network_source_node.xpath("./st:StructuredText", namespaces=ns) if network_source_node is not None else None reconstructed_scl = f"// SCL extraction failed for Network {network_id}: StructuredText node not found.\n" if structured_text_node: print(f" Reconstruyendo SCL desde tokens para red {network_id}...") reconstructed_scl = reconstruct_scl_from_tokens(structured_text_node[0]) # print(f" ... SCL reconstruido (parcial):\n{reconstructed_scl[:200]}...") # Preview opcional else: print(f" Advertencia: No se encontró nodo para red SCL {network_id}.") parsed_network_data = { "id": network_id, "title": network_title, "comment": network_comment, "language": "SCL", "logic": [{ "instruction_uid": f"SCL_{network_id}", # UID inventado "type": "RAW_SCL_CHUNK", "scl": reconstructed_scl }] } elif programming_language in ["LAD", "FBD"]: # Para LAD/FBD, llamar a parse_network (que espera FlgNet dentro de NetworkSource) # parse_network ya maneja su propio título/comentario si es necesario, pero podemos pasar los extraídos # Nota: parse_network espera el *CompileUnit* element, no el NetworkSource parsed_network_data = parse_network(network_elem) if parsed_network_data: parsed_network_data["language"] = programming_language # Asegurar que el lenguaje se guarda if parsed_network_data.get("error"): print(f" Error al parsear red {programming_language} ID={network_id}: {parsed_network_data['error']}") # parsed_network_data = None # Descomentar para omitir redes con error else: print(f" Error: parse_network devolvió None para red {programming_language} ID={network_id}") else: # Manejar otros lenguajes o casos inesperados print(f" Advertencia: Lenguaje no soportado '{programming_language}' en red ID={network_id}. Creando placeholder.") parsed_network_data = { "id": network_id, "title": network_title, "comment": network_comment, "language": programming_language, "logic": [{"instruction_uid": f"UNS_{network_id}", "type": "UNSUPPORTED_LANG", "scl": f"// Network {network_id} uses unsupported language: {programming_language}\n"}] } # Añadir la red procesada (si es válida) al resultado if parsed_network_data: result["networks"].append(parsed_network_data) # --- Fin del bucle for network_elem --- if networks_processed_count == 0: print("Advertencia: ObjectList no contenía elementos SW.Blocks.CompileUnit.") else: print("Advertencia: No se encontró ObjectList para el bloque.") print("Paso 6: Escribiendo el resultado en el archivo JSON...") if not result["interface"]: print("ADVERTENCIA FINAL: 'interface' está vacía.") if not result["networks"]: print("ADVERTENCIA FINAL: 'networks' está vacía.") try: with open(json_filepath, "w", encoding="utf-8") as f: json.dump(result, f, indent=4, ensure_ascii=False) print("Paso 6: Escritura completada."); print(f"Conversión finalizada. JSON guardado en: '{json_filepath}'") except IOError as e: print(f"Error Crítico: No se pudo escribir JSON en '{json_filepath}'. Error: {e}") except TypeError as e: print(f"Error Crítico: Problema al serializar a JSON. Error: {e}") except etree.XMLSyntaxError as e: print(f"Error Crítico: Sintaxis XML inválida en '{xml_filepath}'. Detalles: {e}") except Exception as e: print(f"Error Crítico: Error inesperado durante la conversión: {e}"); print("--- Traceback ---"); traceback.print_exc(); print("--- Fin Traceback ---") # --- Punto de Entrada Principal --- if __name__ == "__main__": # Imports necesarios solo para la ejecución como script principal import argparse import os import sys parser = argparse.ArgumentParser(description="Convert Simatic XML LAD/FBD to simplified JSON.") parser.add_argument( "xml_filepath", nargs="?", # Argumento opcional default="TestLAD.xml", # Valor por defecto si se ejecuta sin argumentos help="Path to the input XML file (default: TestLAD.xml)" ) args = parser.parse_args() xml_input_file = args.xml_filepath # Verificar si el archivo de entrada existe if not os.path.exists(xml_input_file): print(f"Error Crítico: Archivo XML no encontrado: '{xml_input_file}'") sys.exit(1) # Salir si el archivo no existe # Derivar nombre base para archivo de salida JSON # os.path.basename obtiene el nombre del archivo de la ruta # os.path.splitext divide el nombre y la extensión xml_filename_base = os.path.splitext(os.path.basename(xml_input_file))[0] # Construir la ruta de salida en el mismo directorio que el script o el XML output_dir = os.path.dirname(xml_input_file) # O usar os.path.dirname(__file__) para el directorio del script json_output_file = os.path.join(output_dir, f"{xml_filename_base}_simplified.json") # Llamar a la función principal con los nombres de archivo derivados convert_xml_to_json(xml_input_file, json_output_file)