mirror of
https://github.com/3minbe/DBC_Converter.git
synced 2026-05-17 01:23:58 +09:00
186 lines
7.8 KiB
Python
186 lines
7.8 KiB
Python
import sys
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from DBC_Converter_Data_Parsing import load_dbc_file
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#============================== Generate TX Globals ==============================#
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def generate_tx_globals(signals, output_file, header_file):
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if not signals:
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print("[WARNING] No signals to generate TX globals for.")
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return
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with open(output_file, 'w') as f:
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for message_name, message_info in signals.items():
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for signal in message_info["Signals"]:
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if signal["Length"] > 32:
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f.write(f"float GV_{signal['Signal name']} = 0.0f;\n")
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else:
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f.write(f"uint32_t GV_{signal['Signal name']} = 0;\n")
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with open(header_file, 'w') as f:
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f.write("#ifndef GENERATED_TX_GLOBALS_H\n")
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f.write("#define GENERATED_TX_GLOBALS_H\n\n")
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f.write("#include <stdint.h>\n\n")
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for message_name, message_info in signals.items():
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for signal in message_info["Signals"]:
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if signal["Length"] > 32:
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f.write(f"extern float GV_{signal['Signal name']};\n")
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else:
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f.write(f"extern uint32_t GV_{signal['Signal name']};\n")
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f.write("\n#endif // GENERATED_TX_GLOBALS_H\n")
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print(f"[INFO] TX globals written to {output_file} and {header_file}")
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#============================== Generate TX Functions ==============================#
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def generate_tx_functions(signals, output_file):
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if not signals:
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print("[WARNING] No signals to generate TX functions for.")
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return
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with open(output_file, 'w') as f:
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for message_name, message_info in signals.items():
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hex_id = message_info["ID"]
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function_name = f"void Output_Data_Set_{message_name}_CH0_{hex_id}(void)"
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f.write(f"{function_name}\n{{\n")
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for signal in message_info["Signals"]:
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factor_str = f"/ {signal['Factor']}" if signal["Factor"] != 1.0 else ""
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offset_str = f"- {signal['Offset']}" if signal["Offset"] != 0.0 else ""
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mask = f"_{signal['Length']}bit"
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f.write(
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f" VCU.TX.CH0_{message_name}_{hex_id}.{signal['Signal name']} = "
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f"(int)((GV_{signal['Signal name']} {offset_str}) {factor_str}) & {mask};\n"
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)
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f.write("}\n\n")
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print(f"[INFO] TX functions written to {output_file}")
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#============================== Generate TX Initialization ==============================#
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def generate_tx_initialization(signals, output_file):
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if not signals:
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print("[WARNING] No TX signals found for initialization generation.")
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return
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with open(output_file, 'w') as f:
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f.write("void Initialize_TX_Signals(void)\n{\n")
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for message_name, message_info in signals.items():
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hex_id = message_info["ID"]
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f.write(f" // {message_name} ({hex_id})\n")
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for signal in message_info["Signals"]:
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f.write(f" VCU.TX.CH0_{message_name}_{hex_id}.{signal['Signal name']} = 0;\n")
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f.write("\n")
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f.write("}\n")
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print(f"[INFO] TX initialization function written to {output_file}")
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#============================== Generate TX Enum ==============================#
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def generate_tx_enum(signals, output_file, cycle):
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if not signals:
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print("[WARNING] No TX messages found for enum generation.")
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return
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with open(output_file, 'w') as f:
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f.write("typedef enum {\n")
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for idx, message_name in enumerate(signals.keys()):
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enum_name = f"VCU_CH0_TX_{message_name}_{cycle}"
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f.write(f" {enum_name} = {idx},\n")
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f.write(" NUMBER_OF_VCU_CH0_TX_MESSAGE,\n")
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f.write("} VCU_CH0_TX;\n")
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print(f"[INFO] TX enum written to {output_file}")
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#============================== Generate TX C File ==============================#
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def generate_vcu_can_transmit_single_c_file(signals, output_file):
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if not signals:
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print("[ERROR] No signals to generate VCU CAN transmit functions for.")
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return
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# Initialize the header of the C file
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c_file_content = """
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#include "can.h"
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"""
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# Iterate through all messages in the signals
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for message_name, message_info in signals.items():
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# Check if any signal in the message has RX ECU name as VCU
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has_vcu_signal = any(signal["RX ECU name"] == "VCU" for signal in message_info["Signals"])
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if not has_vcu_signal:
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continue # Skip this message if no signal has RX ECU name as VCU
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# Add the function definition for the message
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c_file_content += f"""
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void Transmit_{message_name}_CH0_{message_info['ID']}(void)
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{{
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"""
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# Iterate through signals and generate bit-packing logic
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buffer_assignments = [""] * message_info["DLC"]
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for signal in message_info["Signals"]:
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start_byte = signal["msb"] // 8
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start_bit = signal["msb"] % 8
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signal_length = signal["Length"]
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signal_name = f"VCU.TX.CH0_{message_name}_{message_info['ID']}.{signal['Signal name']}"
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# Handle 8-bit chunks
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while signal_length > 0:
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bits_in_byte = min(8 - start_bit, signal_length)
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shift_amount = (signal["Length"] - signal_length)
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shift_expr = f"({signal_name} >> shift{shift_amount}) << shift{start_bit}" if start_bit > 0 else f"({signal_name} >> shift{shift_amount})"
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buffer_index = start_byte
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# Ensure buffer_index is within the range of buffer_assignments
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if buffer_index >= len(buffer_assignments):
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print(f"[ERROR] Buffer index {buffer_index} out of range for message {message_name}")
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break
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# Add to the buffer assignments
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if buffer_assignments[buffer_index]:
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buffer_assignments[buffer_index] += f"\n | {shift_expr}"
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else:
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buffer_assignments[buffer_index] = f"{shift_expr}"
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# Update pointers
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signal_length -= bits_in_byte
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start_byte += 1
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start_bit = 0
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# Write buffer assignments to the function
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for i, assignment in enumerate(buffer_assignments):
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if assignment:
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c_file_content += f" CAN_ch[0].tx.buf[{i}] = ({assignment}) & _8bit;\n"
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# Add the send function call
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c_file_content += f"""
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can_send_config(CAN_INST_0, g_messageObjectConf_VCU_0ch_TX[VCU_CH0_TX_{message_name}_10ms]);
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}}
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"""
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# Write the generated code to a single C file
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with open(output_file, "w") as c_file:
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c_file.write(c_file_content)
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print(f"Generated C file with all VCU messages: {output_file}")
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#============================== Main ==============================#
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if __name__ == "__main__":
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dbc_file_path = sys.argv[1]
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output_dir = sys.argv[2]
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output_structs_file = f"{output_dir}/generated_tx_structs.h"
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output_globals_file = f"{output_dir}/generated_tx_globals.c"
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output_globals_header = f"{output_dir}/generated_tx_globals.h"
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output_tx_functions_file = f"{output_dir}/generated_tx_functions.c"
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output_tx_initialization = f"{output_dir}/generated_tx_initialization.c"
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output_enum_file = f"{output_dir}/generated_tx_enum.h"
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output_c_file = f"{output_dir}/Transmit_All_VCU_Messages.c" # Replace with your desired output file name
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cycle_time = "10ms"
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signals = load_dbc_file(dbc_file_path)
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if signals is None:
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print(f"[ERROR] Failed to load DBC file: {dbc_file_path}")
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sys.exit(1)
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generate_tx_globals(signals, output_globals_file, output_globals_header)
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generate_tx_functions(signals, output_tx_functions_file)
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generate_tx_initialization(signals, output_tx_initialization)
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generate_tx_enum(signals, output_enum_file, cycle_time)
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generate_vcu_can_transmit_single_c_file(signals, output_c_file) |