import os from time import sleep from typing import Any from hogvm.python.operation import Operation debug_speed = -1 def debugger(symbol: Any, bytecode: list, colored_bytecode: list, ip: int, stack: list, call_stack: list): print("\033[H\033[J", end="") # noqa: T201 next_symbol = symbol try: next_symbol = print_symbol(Operation(next_symbol), ip, bytecode, stack, call_stack) except ValueError: pass top: list = [] top.append(f"call_stack: {call_stack}") # noqa: T201 top.append(f"stack: {stack}") # noqa: T201 top.append(f"next: {next_symbol}") # noqa: T201 top.append(f"ip: {ip}") # noqa: T201 top.append("") # noqa: T201 cols = os.get_terminal_size().columns # count how much top actually takes header_lines = 2 for line in top: header_lines += 1 + len(line) // cols print(line) # noqa: T201 rows = os.get_terminal_size().lines - header_lines rows = 2 if rows < 2 else rows rows_from_top = 2 if rows > 2 else 0 start_ip = max(ip - rows_from_top, 0) end_ip = min(start_ip + rows, len(bytecode)) for i in range(start_ip, end_ip): prefix = "> " if i == ip else " " postfix = "" if colored_bytecode[i].startswith("op.") else " " print(f"{prefix}{i}: {postfix}{colored_bytecode[i]}") # noqa: T201 global debug_speed if debug_speed < 0: response = input() if response == "help" or response == "h" or response == "?": print("- Press to quit.") # noqa: T201 print("- Press to step to the next instruction.") # noqa: T201 print("- Enter a number like 1, 10, 100 or 1000 (ms) to speedwalk the code.") # noqa: T201 response = input() try: debug_speed = int(response) except ValueError: debug_speed = -1 else: sleep(debug_speed / 1000) def print_symbol(symbol: Operation, ip: int, bytecode: list, stack: list, call_stack: list) -> str: try: match symbol: case Operation.STRING: return f"STRING({bytecode[ip+1]})" case Operation.INTEGER: return f"INTEGER({bytecode[ip+1]})" case Operation.FLOAT: return f"FLOAT({bytecode[ip+1]})" case Operation.TRUE: return "TRUE" case Operation.FALSE: return "FALSE" case Operation.NULL: return "NULL" case Operation.NOT: return f"NOT({stack[-1]})" case Operation.AND: return f"AND({', '.join(str(stack[-i]) for i in range(bytecode[ip+1]))})" case Operation.OR: return f"OR({', '.join(str(stack[-i]) for i in range(bytecode[ip+1]))})" case Operation.PLUS: return f"PLUS({stack[-2]}, {stack[-1]})" case Operation.MINUS: return f"MINUS({stack[-2]}, {stack[-1]})" case Operation.MULTIPLY: return f"MULTIPLY({stack[-2]}, {stack[-1]})" case Operation.DIVIDE: return f"DIVIDE({stack[-2]}, {stack[-1]})" case Operation.EQ: return f"EQ({stack[-2]}, {stack[-1]})" case Operation.NOT_EQ: return f"NOT_EQ({stack[-2]}, {stack[-1]})" case Operation.GT: return f"GT({stack[-2]}, {stack[-1]})" case Operation.GT_EQ: return f"GT_EQ({stack[-2]}, {stack[-1]})" case Operation.LT: return f"LT({stack[-2]}, {stack[-1]})" case Operation.LT_EQ: return f"LT_EQ({stack[-2]}, {stack[-1]})" case Operation.LIKE: return f"LIKE({stack[-2]}, {stack[-1]})" case Operation.ILIKE: return f"ILIKE({stack[-2]}, {stack[-1]})" case Operation.NOT_LIKE: return f"NOT_LIKE({stack[-2]}, {stack[-1]})" case Operation.NOT_ILIKE: return f"NOT_ILIKE({stack[-2]}, {stack[-1]})" case Operation.IN: return f"IN({stack[-2]}, {stack[-1]})" case Operation.NOT_IN: return f"NOT_IN({stack[-2]}, {stack[-1]})" case Operation.REGEX: return f"REGEX({stack[-2]}, {stack[-1]})" case Operation.NOT_REGEX: return f"NOT_REGEX({stack[-2]}, {stack[-1]})" case Operation.IREGEX: return f"IREGEX({stack[-2]}, {stack[-1]})" case Operation.NOT_IREGEX: return f"NOT_IREGEX({stack[-2]}, {stack[-1]})" case Operation.IN_COHORT: return f"IN_COHORT({stack[-2]}, {stack[-1]})" case Operation.NOT_IN_COHORT: return f"NOT_IN_COHORT({stack[-2]}, {stack[-1]})" case Operation.GET_GLOBAL: return f"GET_GLOBAL({', '.join(str(stack[-i]) for i in range(bytecode[ip+1]))})" case Operation.POP: return f"POP({stack[-1]})" case Operation.RETURN: if call_stack: ip, stack_start, arg_len = call_stack[-1] return f"RETURN({stack[-1]} --> {ip}/{stack_start})" else: return "RETURN" case Operation.GET_LOCAL: return f"GET_LOCAL({bytecode[ip+1]})" case Operation.SET_LOCAL: return f"GET_LOCAL({bytecode[ip + 1]}, {stack[-1]})" case Operation.GET_PROPERTY: return f"GET_PROPERTY({stack[-2]}, {stack[-1]})" case Operation.SET_PROPERTY: return f"SET_PROPERTY({stack[-3]}, {stack[-2]}, {stack[-1]})" case Operation.DICT: return f"DICT({bytecode[ip+1]})" case Operation.ARRAY: return f"ARRAY({bytecode[ip+1]})" case Operation.TUPLE: return f"TUPLE({bytecode[ip+1]})" case Operation.JUMP: return f"JUMP({'+' if bytecode[ip+1] >= 0 else ''}{bytecode[ip+1]})" case Operation.JUMP_IF_FALSE: return f"JUMP_IF_FALSE({'+' if bytecode[ip+1] >= 0 else ''}{bytecode[ip+1]}, {bool(stack[-1])})" case Operation.DECLARE_FN: return f"DECLARE_FN({bytecode[ip+1]}, args={bytecode[ip+2]}, ops={bytecode[ip+3]})" case Operation.CALL: return f"CALL({bytecode[ip+1]} {', '.join(str(stack[-i]) for i in range(bytecode[ip+2]))})" return symbol.name except Exception as e: return f"{symbol.name}(ERROR: {e})" def color_bytecode(bytecode: list) -> list: colored = ["op.START"] ip = 1 while ip < len(bytecode): symbol = bytecode[ip] match symbol: case Operation.STRING: add = ["op.STRING", f"string: {bytecode[ip+1]}"] case Operation.INTEGER: add = ["op.INTEGER", f"integer: {bytecode[ip+1]}"] case Operation.FLOAT: add = ["op.FLOAT", f"float: {bytecode[ip+1]}"] case Operation.TRUE: add = ["op.TRUE"] case Operation.FALSE: add = ["op.FALSE"] case Operation.NULL: add = ["op.NULL"] case Operation.NOT: add = ["op.NOT"] case Operation.AND: add = ["op.AND", f"expr count: {bytecode[ip+1]}"] case Operation.OR: add = ["op.OR", f"expr count: {bytecode[ip+1]}"] case Operation.PLUS: add = ["op.PLUS"] case Operation.MINUS: add = ["op.MINUS"] case Operation.MULTIPLY: add = ["op.MULTIPLY"] case Operation.DIVIDE: add = ["op.DIVIDE"] case Operation.EQ: add = ["op.EQ"] case Operation.NOT_EQ: add = ["op.NOT_EQ"] case Operation.GT: add = ["op.GT"] case Operation.GT_EQ: add = ["op.GT_EQ"] case Operation.LT: add = ["op.LT"] case Operation.LT_EQ: add = ["op.LT_EQ"] case Operation.LIKE: add = ["op.LIKE"] case Operation.ILIKE: add = ["op.ILIKE"] case Operation.NOT_LIKE: add = ["op.NOT_LIKE"] case Operation.NOT_ILIKE: add = ["op.NOT_ILIKE"] case Operation.IN: add = ["op.IN"] case Operation.NOT_IN: add = ["op.NOT_IN"] case Operation.REGEX: add = ["op.REGEX"] case Operation.NOT_REGEX: add = ["op.NOT_REGEX"] case Operation.IREGEX: add = ["op.IREGEX"] case Operation.NOT_IREGEX: add = ["op.NOT_IREGEX"] case Operation.IN_COHORT: add = ["op.IN_COHORT"] case Operation.NOT_IN_COHORT: add = ["op.NOT_IN_COHORT"] case Operation.GET_GLOBAL: add = ["op.GET_GLOBAL", f"field count: {bytecode[ip+1]}"] case Operation.POP: add = ["op.POP"] case Operation.RETURN: add = ["op.RETURN"] case Operation.GET_LOCAL: add = ["op.GET_LOCAL", f"index: {bytecode[ip+1]}"] case Operation.SET_LOCAL: add = ["op.SET_LOCAL", f"index: {bytecode[ip+1]}"] case Operation.GET_PROPERTY: add = ["op.GET_PROPERTY"] case Operation.SET_PROPERTY: add = ["op.SET_PROPERTY"] case Operation.DICT: add = ["op.DICT", f"key count: {bytecode[ip+1]}"] case Operation.ARRAY: add = ["op.ARRAY", f"element count: {bytecode[ip+1]}"] case Operation.TUPLE: add = ["op.TUPLE", f"element count: {bytecode[ip+1]}"] case Operation.JUMP: add = ["op.JUMP", f"offset: {bytecode[ip+1]}"] case Operation.JUMP_IF_FALSE: add = ["op.JUMP_IF_FALSE", f"offset: {bytecode[ip+1]}"] case Operation.DECLARE_FN: add = ["op.DECLARE_FN", f"name: {bytecode[ip+1]}", f"args: {bytecode[ip+2]}", f"ops: {bytecode[ip+3]}"] case Operation.CALL: add = ["op.CALL", f"name: {bytecode[ip+1]}", f"args: {bytecode[ip+2]}"] case _: add = ["ERROR"] colored.extend(add) ip += len(add) return colored