def lexical_analysis(): global content # 新建词法分析器 lexical = Lexical() # 载入源代码 # lexical.load_source(open('code.txt', encoding="utf-8").read()) lexical.load_source(content) # 执行词法分析 lexical_success = lexical.execute() # 将结果保存在tokens文件中 with open('lexical_result.txt', 'w+') as f: lexical_result = lexical.get_result() for i in lexical_result: f.write(i.type + '\t' + i.str + '\t' + str(i.line) + '\n') # 打印结果 -> 结果全部保存在BUFFER字符串中 buffer = [] print('词法分析是否成功:\t', lexical_success) buffer.append('词法分析是否成功: ' + str(lexical_success) + '\n') if lexical._flag: with open('lexical_error.txt') as fp: for line in fp.readlines(): buffer.append(line) #print('错误原因:\t', lexical.get_error().info,'\t错误数据为:\t',lexical.get_error().values, # '\t错误行数为:\t',lexical.get_error().line) else: #lexical_result = lexical.get_result() print('词法分析结果:') buffer.append('词法分析结果: ') # print("type content line") for i in lexical_result: print(i.type, i.str, i.line) buffer.append('(%s, %s, %s)' % (i.type, i.str, i.line)) return buffer
from lexical import Lexical from semantic import Pro from syntax import Parser from vm import VM import os if __name__ == '__main__': # 新建词法分析器 lexical = Lexical() # 载入源代码 lexical.load_source(open('fib.txt', encoding="utf-8").read()) # 执行词法分析 lexical_success = lexical.execute() # 将结果保存在tokens文件中 with open('lexical_result.txt', 'w+') as f: lexical_result = lexical.get_result() for i in lexical_result: f.write(i.type + '\t' + i.str + '\t' + str(i.line) + '\n') # # 打印结果 print('词法分析是否成功:\t', lexical_success) if lexical_success: # lexical_result = lexical.get_result() print() print('词法分析结果:') for i in lexical_result: print(i.type, i.str, i.line) print() else:
def main(): # 新建词法分析器 lexical = Lexical() # 载入源代码 lexical.load_source(open('3.txt', encoding="utf-8").read()) # 执行词法分析 lexical_success = lexical.execute() # 将结果保存在tokens文件中 with open('lexical_result.txt', 'w+') as f: lexical_result = lexical.get_result() for i in lexical_result: f.write(i.type + '\t' + i.str + '\t' + str(i.line) + '\n') # 打印结果 print('词法分析是否成功:\t', lexical_success) if lexical_success: # lexical_result = lexical.get_result() print() print('词法分析结果:') for i in lexical_result: print(i.type, i.str, i.line) print() else: print('错误原因:\t', lexical.get_error().info) # 语法分析 parser = Parser() parser.open('grammar1211.txt') # 语法规则保存的地方 parser.make_first() parser.make_follow() parser.make_pretable() table = list() if not parser.iserror: _flag = True for key1 in parser.pretable.keys(): if _flag: table.append(list(parser.pretable[key1])) _flag = False table.append(list(parser.pretable[key1].values())) else: print("\33[不是LL1文法") # 保存ll(1)预测表 if os.path.exists('LL(1).txt'): os.remove('LL(1).txt') with open("LL(1).txt", 'a+') as f: f.write("\t") for i in list(parser.pretable.keys()): f.write(str(i) + "\t") f.write("\n") for i in range(0, len(table[0])): for array in table: if str(array[i]) == "error": f.write("\t") else: f.write(str(array[i]) + "\t") f.write("\n") # 语义分析 map_list = list() input_str = '' map_line = list() with open('lexical_result.txt') as f: for line in f.readlines(): line = line[:-1].split('\t') if line[0]: input_str += line[0] map_list.append(line[1]) map_line.append(line[2]) p = Pro() # input str 标识符 map-lsit 字符 map-line 行数 p.createSymbolList(input_str, map_list, map_line) # 语义分析得到chart 符号表 temp_list 临时变量表 seq_list四元式表 p.analysis('LL(1).txt') # 生成的的ll1规则表LL(1)
from lexical import Lexical from semantic import Pro from syntax import Parser from vm import VM import os if __name__ == '__main__': # 新建词法分析器 lexical = Lexical() # 载入源代码 lexical.load_source(open('./test/4.txt', encoding="utf-8").read()) # 执行词法分析 lexical_success = lexical.execute() # 将结果保存在tokens文件中 with open('lexical_result.txt', 'w+') as f: lexical_result = lexical.get_result() for i in lexical_result: f.write(i.type + '\t' + i.str + '\t' + str(i.line) + '\n') # # 打印结果 print('词法分析是否成功:\t', lexical_success) if lexical_success: # lexical_result = lexical.get_result() print() print('词法分析结果:') for i in lexical_result: print(i.type, i.str, i.line) print() else: