功能描述
作业需求:
1、额度 15000或自定义
2、实现购物商城,买东西加入购物车,调用信用卡接口结账
3、可以提现,手续费5%
4、支持多账户登录
5、支持账户间转账
6、记录每月日常消费流水
7、提供还款接口
8、ATM记录操作日志
9、提供管理接口,包括添加账户、用户额度,冻结账户等。。。
10、用户认证用装饰器
注意:以上需求,要充分使用函数,请尽你的最大限度来减少重复代码!
流程图
程序流程图(待补全)
![]()
程序目录结构
bin
├── atm.py # atm入口
├── __init__.py
└── manage.py # 管理入口
conf
├── __init__.py
└── settings.py # 配置文件
core
├── accounts.py # 账号添加、修改额度、禁用、启动接口
├── actions.py # sql动作接口
├── auth.py # 用户认证接口
├── database.py # 数据库操作接口
├── db_handler.py# 无用到
├── __init__.py
├── logger.py # 日志接口
├── main.py # 主接口
├── parsers.py # sql语法解析接口
└── transaction.py # 交易接口
db
├── accounts_table # 用户账号表
└── managers_table # 管理员账号表
log
├── access.log #访问日志
└── transactions.log #交易日志
程序主体
atm.py
#!_*_coding:utf-8_*_
import os
import sys
base_dir = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
print(base_dir)
sys.path.append(base_dir)
from core import main
if __name__ == '__main__':
main.run('atm')
manage.py
#!_*_coding:utf-8_*_
import os
import sys
base_dir = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
print(base_dir)
sys.path.append(base_dir)
from core import main
if __name__ == '__main__':
main.run('manage')
setting.py
#!_*_coding:utf-8_*_
#__author__:"Alex Li"
import os
import sys
import logging
BASE_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
# Database title summary
TITLE = ['id','name','age','phone','dept','enroll_date','expire_date','account','password','credit','balance','status','pay_day']
# Account database setting
DATABASE = {
'engine': 'file_storage', # support mysql, postgresql in the future
'name':'accounts_table',
'path': "%s/db/" % BASE_DIR
}
# Manager account database setting
MANAGE_DATABASE = {
'engine': 'file_storage', # support mysql, postgresql in the future
'name':'managers_table',
'path': "%s/db/" % BASE_DIR
}
# logger setting
LOG_LEVEL = logging.INFO
LOG_TYPES = {
'transaction': 'transactions.log',
'access': 'access.log',
}
# Transaction setting
TRANSACTION_TYPE = {
'repay':{'action':'plus', 'interest':0},
'withdraw':{'action':'minus', 'interest':0.05},
'transfer':{'action':'minus', 'interest':0.05},
'consume':{'action':'minus', 'interest':0},
}
ACCOUNT_DEFAULT = {
'credit': 15000.0
}
accounts.py
#!_*_coding:utf-8_*_
import json
import time
from core import database
from conf import settings
from core import parsers
from core import actions
def load_accounts(account):
""" Check account whether exists in a database
:param account:
:return:
"""
base_dir = settings.DATABASE['path']
sql_str = 'select * from accounts_table where account = %s' % account
sql_type = sql_str.split()[0]
dict_sql = parsers.parsers(sql_str, sql_type, base_dir)
res = actions.actions(sql_type, dict_sql)
if not res:
return False
else:
return True
def change_account(account, set_str):
""" Change account data
:param account:
:param set_str:
:return:
"""
base_dir = settings.DATABASE['path']
sql_str = 'update accounts_table set %s where account = %s' % (set_str, account)
sql_type = sql_str.split()[0]
dict_sql = parsers.parsers(sql_str, sql_type, base_dir)
actions.actions(sql_type, dict_sql)
def add_account(*args):
""" Add an new account
:param args:
:param kwargs:
:return:
"""
base_dir = settings.DATABASE['path']
sql_str = 'add to accounts_table values %s' % (','.join(args))
sql_type = sql_str.split()[0]
dict_sql = parsers.parsers(sql_str, sql_type, base_dir)
actions.actions(sql_type, dict_sql)
actions.py
# -*- coding: utf-8 -*-
from core import database
from conf import settings
import re
def actions(sql_type,dict_sql):
""" sql操作主函数
:param sql_type: sql语句的类型
:return:
actions_dict[sql_type]
相应操作的函数
"""
actions_dict = {'select': select_action,
'add': add_action,
'del': del_action,
'update': update_action}
if sql_type in actions_dict: # 判断导入的sql类型是否在actions_dict字典中定义。
return actions_dict[sql_type](dict_sql)
else:
return False
def select_action(dict_sql):
temp_list = []
info = dict_sql['select']
data = database.read_db(dict_sql['from']) # 获取原始数据库文件中的所有数据,data为列表格式
key = dict_sql['where'][0] # 获取sql语句中where语句的key值。如id = 1,获取id
count = 0
for values in data: # 读取data列表中的每一个元素,values是字典格式
if type(values[key]) is int:
value = str(values[key])
else:
value = '"' + str(values[key]) + '"'
dict_sql['where'][0] = value # 将values[key]的值取出并重新赋值为sql语句的key值。
print(where_action(dict_sql['where']))
if where_action(dict_sql['where']): # 将新的where语句,发送给where_action语句进行bool判断。
count += 1
temp_list.append(values)
return temp_list
def add_action(dict_sql):
""" 插入动作
获取用户输入的values,并在表中插入
:param dict_sql: parsers函数处理后的字典格式的sql语句
"""
data = database.read_db(dict_sql['to']) # 获取原始数据库文件中的所有数据
value = dict_sql['values'] # 从dict_sql中获取values的列表
t_id = str(int(data[-1]['id']) + 1) # 获取原始数据库文件中id列最后一行的id数值,并每次自动+1。然后转换为字符串格式
value.insert(0, t_id) # 将添加的id插入到value变量中
if len(value) != len(settings.TITLE): # 判断输入值得长度是否等于数据库文件中定义的列的长度
print('列数不正确')
else:
data.append(dict(zip(settings.TITLE, value))) # 在获取的原始数据中插入行的数据
database.write_db(dict_sql['to'], data)
def del_action(dict_sql):
""" 删除动作函数
:param dict_sql: parsers函数处理后的字典格式的sql语句
"""
temp_list = []
data = database.read_db(dict_sql['from']) # 获取原始数据库文件中的所有数据,data为列表格式
key = dict_sql['where'][0] # 获取sql语句中where语句的key值。如id = 1,获取id
for values in data: # 读取data列表中的每一个元素,values是字典格式
if type(values[key]) is int:
value = str(values[key])
else:
value = '"' + str(values[key]) + '"'
dict_sql['where'][0] = value # 将values[key]的值取出并重新赋值为sql语句的key值。
if where_action(dict_sql['where']): # 将新的where语句,发送给where_action语句进行bool判断。
temp_list.append(values) # 如果符合条件,就从data中移除对应的values
return temp_list
# print('已删除%s条记录' % len(temp_list))
# for i in temp_list:
# data.remove(i)
# write_db(dict_sql['from'], data) # 将新生成的data重新写入文件
def update_action(dict_sql):
""" 更新动作函数
:param dict_sql: parsers函数处理后的字典格式的sql语句
"""
data = database.read_db(dict_sql['update']) # 获取原始数据库文件中的所有数据,data为列表格式
key = dict_sql['where'][0] # 获取sql语句中where语句的key值。如id = 1,获取id
set_key = dict_sql['set'][0] # 获取set语句中用户输入的key
set_value = dict_sql['set'][2].strip("'").strip('"') # 获取set语句中用户输入的value
count = 0
for values in data: # 读取data列表中的每一个元素,values是字典格式
if type(values[key]) is int:
value = str(values[key])
else:
value = '"' + str(values[key]) + '"'
dict_sql['where'][0] = value # 将values[key]的值取出并重新赋值为sql语句的key值。
if where_action(dict_sql['where']): # 将新的where语句,发送给where_action语句进行bool判断。
count += 1
values[set_key] = set_value # 如果符合条件,使用将set_key的值修改为set_value
print(data)
print('已更新%s条记录' % count)
database.write_db(dict_sql['update'], data) # 将新生成的data重新写入文件
def where_action(condition):
""" where语句操作函数
:param condition: 判断语句。就是字典中where的值
:return:
"""
if 'like' in condition: # 如果like在语句中
# 将where语句中的第二个参数和,第一个参数进行正则比较。如果执行正常就返回True
return re.search(condition[2].strip("'").strip('"'), condition[0]) and True
else:
return eval(' '.join(condition)) # 除此使用eval进行python的逻辑判断
auth.py
#!_*_coding:utf-8_*_
import os
from core import parsers
from core import actions
from core import db_handler
from conf import settings
from core import logger
import json
import time
def login_required(func):
"验证用户是否登录"
def wrapper(*args, **kwargs):
print(args, kwargs)
# print('--wrapper--->',args,kwargs)
if args[0].get('is_authenticated'):
return func(*args, **kwargs)
else:
exit("User is not authenticated.")
return wrapper
def acc_auth(account, password, type):
'''
优化版认证接口
:param account: credit account number
:param password: credit card password
:return: if passed the authentication , retun the account object, otherwise ,return None
'''
# table = None
# base_dir = None
if type == 'atm':
base_dir = settings.DATABASE['path']
table = settings.DATABASE['name']
elif type == 'manage':
base_dir = settings.MANAGE_DATABASE['path']
table = settings.MANAGE_DATABASE['name']
sql_str = 'select * from %s where account = %s' % (table, account)
sql_type = sql_str.split()[0]
dict_sql = parsers.parsers(sql_str, sql_type, base_dir)
print(dict_sql)
res = actions.actions(sql_type, dict_sql)
print(res)
if not res:
print("\033[31;1mAccount ID and password is incorrect!\033[0m")
elif res[0]['password'] == password:
print('haha')
exp_time_stamp = time.mktime(time.strptime(res[0]['expire_date'], "%Y-%m-%d"))
if time.time() > exp_time_stamp:
print("\033[31;1mAccount [%s] has expired,please contact the back to get a new card!\033[0m" % account)
elif res[0]['status'] == 1:
print("\033[31;1mAccount [%s] has expired,please contact the back to get a new card!\033[0m" % account)
else: # passed the authentication
return res[0]
else:
print("\033[31;1mAccount ID and password is incorrect!\033[0m")
def acc_login(user_data, log_obj, type):
'''
account login func
:user_data: user info data , only saves in memory
:return:
'''
retry_count = 0
while user_data['is_authenticated'] is not True and retry_count < 3 :
account = input("\033[32;1maccount:\033[0m").strip()
password = input("\033[32;1mpassword:\033[0m").strip()
auth = acc_auth(account, password, type)
if auth: # not None means passed the authentication
log_obj.info("account [%s] login system" % account)
user_data['is_authenticated'] = True
user_data['account_id'] = account
return auth
retry_count +=1
else:
log_obj.error("account [%s] too many login attempts" % account)
exit()
def acc_logout(user_data, log_obj):
account = user_data['account_data']['name']
user_data['is_authenticated'] = False
log_obj.info("account [%s] logout system" % account)
exit("account [%s] logout system" % account)
databaase.py
# -*- coding: utf-8 -*-
from conf import settings
def read_db(table):
""" 读取表文件函数。
:param table: 表文件参数
:return: 返回一个包含表文件内容的字典
"""
title = settings.TITLE
try:
main_list = []
with open(table, 'r', encoding='utf-8') as rf:
for line in rf:
temp_list = []
if line.rstrip('\n').split(',') == title:
continue
else:
for values in line.strip('\n').split(','):
if values.isdigit():
temp_list.append(int(values))
else:
temp_list.append(values)
main_list.append(dict(zip(title, temp_list)))
return main_list
except FileNotFoundError as e:
print(e)
exit(1)
def write_db(table, data):
""" 写入表文件函数。
:param table: 表文件参数
:param data: 导入的数据。为字典格式
"""
value2 = ','.join(settings.TITLE) + '\n'
for values in data:
temp_list = []
for value in values.values():
temp_list.append(str(value))
value2 += ','.join(temp_list) + '\n'
with open(file=table, mode='w', encoding='utf-8') as wf:
wf.write(value2)
def print_info(info, **kwargs):
""" 打印函数。
用于select语句打印显示
:param info: select语句中需要显示的类
:param kwargs: 字典,用于进行操作的原始数据
:return:
"""
temp_list = []
if info == '*':
for key in kwargs:
temp_list.append(str(kwargs[key]))
print(','.join(temp_list))
else:
info_list = info.split(',')
for i in info_list:
temp_list.append(str(kwargs[i]))
print(','.join(temp_list))
logger.py
#!_*_coding:utf-8_*_
"""
handle all the logging works
"""
import logging
from conf import settings
import time
import re
def logger(log_type):
# create logger
my_logger = logging.getLogger(log_type)
my_logger.setLevel(settings.LOG_LEVEL)
# create console handler and set level to debug
ch = logging.StreamHandler()
ch.setLevel(settings.LOG_LEVEL)
# create file handler and set level to warning
log_file = "%s/log/%s" % (settings.BASE_DIR, settings.LOG_TYPES[log_type])
fh = logging.FileHandler(log_file)
fh.setLevel(settings.LOG_LEVEL)
# create formatter
formatter = logging.Formatter('%(asctime)s - %(name)s - %(levelname)s - %(message)s')
# add formatter to ch and fh
ch.setFormatter(formatter)
fh.setFormatter(formatter)
# add ch and fh to logger
my_logger.addHandler(ch)
my_logger.addHandler(fh)
return my_logger
def get_log_info(account):
""" 将日志的内容进行转换后返回相应账号的转款信息
:param account: 账号参数
:return:
"""
temp_list = []
log_file = "%s/log/%s" % (settings.BASE_DIR, settings.LOG_TYPES['transaction'])
with open(log_file, 'r') as f:
for i in f:
log_mat = re.search('(\d{4}-\d{1,2}-\d{1,2}\s\d{1,2}:\d{1,2}:\d{1,2}).*account:(.*?)\s.*action:(.*?)\s.*amount:(.*?)\s.*interest:(.*)',i)
datetime = time.strptime(log_mat.group(1),'%Y-%m-%d %H:%M:%S')
account_id = log_mat.group(2)
action = log_mat.group(3)
amount = log_mat.group(4)
interest = log_mat.group(5)
if account_id == account:
temp_list.append([datetime,action,amount,interest])
return temp_list
main.py
#!_*_coding:utf-8_*_
""""
main program handle module , handle all the user interaction stuff
"""
from core import auth
from core import logger
from core import parsers
from core import transaction
from core.auth import login_required
from core import actions
from conf import settings
from core import accounts
import random
import datetime
import re
import time
# transaction logger
trans_logger = logger.logger('transaction')
# access logger
access_logger = logger.logger('access')
# temp account data ,only saves the data in memory
user_data = {
'account_id': None,
'is_authenticated': False,
'account_data': None
}
@login_required
def account_info(acc_data):
""" print account Information
:param acc_data: account summary
:return:
"""
back_flag = False
info_temp_list = []
account_data = acc_data['account_data']
info_list = ['name', 'age', 'phone', 'enroll_date', 'expire_date', 'account', 'credit', 'balance']
for i in info_list:
info_temp_list.append(str(account_data[i]))
info = ''' --------- BALANCE INFO --------
username : {0}
age: {1}
phone: {2}
enroll date: {3}
expire date: {4}
card number: {5}
credit: {6}
balance: {7}
'''.format(*info_temp_list)
print(info)
while not back_flag:
input_b = input("\033[33;1mInput 'b' return to menu:\033[0m").strip()
if input_b == 'b':
back_flag = True
@login_required
def repay(acc_data):
"""
print current balance and let user repay the bill
:return:
"""
account_data = acc_data['account_data']
current_balance = ''' --------- BALANCE INFO --------
Credit : %s
Balance: %s'''.format(account_data['credit'], account_data['balance'])
print(current_balance)
back_flag = False
while not back_flag:
repay_amount = input("\033[33;1mInput repay amount:\033[0m").strip()
if len(repay_amount) > 0 and repay_amount.isdigit():
new_balance = transaction.make_transaction(trans_logger, account_data, 'repay', repay_amount)
if new_balance:
print('''\033[42;1mNew Balance:%s\033[0m''' % (new_balance['balance']))
elif repay_amount == 'b':
back_flag = True
else:
print('\033[31;1m[%s] is not a valid amount, only accept integer!\033[0m' % repay_amount)
@login_required
def withdraw(acc_data):
"""
print current balance and let user do the withdraw action
:param acc_data:
:return:
"""
account_data = acc_data['account_data']
current_balance = ''' --------- BALANCE INFO --------
Credit : %s
Balance: %s''' % (account_data['credit'], account_data['balance'])
print(current_balance)
back_flag = False
while not back_flag:
withdraw_amount = input("\033[33;1mInput withdraw amount:\033[0m").strip()
if len(withdraw_amount) > 0 and withdraw_amount.isdigit():
new_balance = transaction.make_transaction(trans_logger, account_data, 'withdraw', withdraw_amount)
if new_balance:
print('''\033[42;1mNew Balance:%s\033[0m''' % (new_balance['balance']))
elif withdraw_amount == 'b':
back_flag = True
else:
print('\033[31;1m[%s] is not a valid amount, only accept integer!\033[0m' % withdraw_amount)
@login_required
def transfer(acc_data):
""" transfer accounts
:param acc_data:
:return:
"""
account_data = acc_data['account_data']
current_balance = ''' --------- BALANCE INFO --------
Credit : %s
Balance: %s''' % (account_data['credit'], account_data['balance'])
print(current_balance)
back_flag = False
while not back_flag:
payee_account = input("\033[33;1mInput payee account:\033[0m").strip()
if payee_account == 'b':
back_flag = True
else:
base_dir = settings.DATABASE['path']
sql_str = 'select * from accounts_table where account = %s' % payee_account
sql_type = sql_str.split()[0]
dict_sql = parsers.parsers(sql_str, sql_type, base_dir)
res = actions.actions(sql_type, dict_sql)
if not res:
print("\033[31;1mThe payee you entered is not a bank user!\033[0m")
else:
payee_account_data = res[0]
trans_amount = input("\033[33;1mInput transfer amount:\033[0m").strip()
if len(trans_amount) > 0 and trans_amount.isdigit():
new_balance = transaction.make_transaction(trans_logger, account_data, 'transfer', trans_amount)
payee_balance = transaction.make_transaction(trans_logger, payee_account_data,
'repay', trans_amount)
if new_balance:
print('''\033[42;1mNew Balance:%s\033[0m''' % (new_balance['balance']))
if payee_balance:
print('''\033[42;1mThe money has come to the payee [%s]\033[0m''' % payee_account)
elif trans_amount == 'b':
back_flag = True
else:
print('\033[31;1m[%s] is not a valid amount, only accept integer!\033[0m' % trans_amount)
@login_required
def pay_check(acc_data):
""" Account pay check interface
:param acc_data:
:return:
"""
back_flag = False
account_id = acc_data['account_id']
local_month = time.localtime().tm_mon
res = logger.get_log_info(account_id)
if res:
for result in res:
if result[0].tm_mon == local_month:
pay_check_info = ''' --------- Datatime %s --------
Action: %s
Amount: %s
Interest: %s''' % (time.strftime('%Y-%m-%d %H:%M:%S',result[0]), result[1], result[2], result[3])
print(pay_check_info)
while not back_flag:
input_b = input("\033[33;1mInput 'b' return to menu:\033[0m").strip()
if input_b == 'b':
back_flag = True
@login_required
def logout(acc_data):
auth.acc_logout(acc_data, access_logger)
def interactive(acc_data):
""" Atm interactive main interface
:param acc_data: account summary
:return:
"""
menu = u'''
------- Oldboy Bank ---------
\033[32;1m1. 账户信息(功能已实现)
2. 还款(功能已实现)
3. 取款(功能已实现)
4. 转账(功能已实现)
5. 账单(功能已实现)
6. 退出(功能已实现)
\033[0m'''
menu_dic = {
'1': account_info,
'2': repay,
'3': withdraw,
'4': transfer,
'5': pay_check,
'6': logout,
}
exit_flag = False
while not exit_flag:
print(menu)
user_option = input(">>:").strip()
if user_option in menu_dic:
menu_dic[user_option](acc_data)
else:
print("\033[31;1mOption does not exist!\033[0m")
@login_required
def add_account(acc_data):
exit_flag = False
# id, name, age, phone, dept, enroll_date, expire_date, account, password, credit, balance, status, pay_day
while not exit_flag:
account_name = input("\033[33;1mInput user name:\033[0m").strip()
if len(account_name) > 0:
account_name = account_name
else:
continue
account_age = input("\033[33;1mInput user age:\033[0m").strip()
if len(account_name) > 0 and account_age.isdigit():
account_age = account_age
else:
continue
account_phone = input("\033[33;1mInput user phone number:\033[0m").strip()
if len(account_phone) > 0 and account_phone.isdigit() and len(account_phone) == 11:
account_phone = account_phone
else:
continue
account_dept = input("\033[33;1mInput user dept:\033[0m").strip()
if len(account_dept) > 0:
account_dept = account_dept
else:
continue
account = ''.join(str(random.choice(range(10))) for _ in range(5)) # 随机生成5位账号
password = input("\033[33;1mInput account password:\033[0m").strip()
if len(password) == 0:
password = 'abcde'
else:
password = password
account_enroll_date = datetime.datetime.now().strftime("%Y-%m-%d") # 当前时间为开通时间
account_expire_date = (datetime.datetime.now() + datetime.timedelta(days=(3 * 365))).strftime("%Y-%m-%d") # 3年后为过期时间
#print(account_enroll_date,account_expire_date)
account_credit = input("\033[33;1mInput account credit:\033[0m").strip()
if len(account_credit) == 0:
account_credit = str(settings.ACCOUNT_DEFAULT['credit'])
else:
account_credit = account_credit
#print(account)
input_list = [account_name, account_age,account_phone,account_dept,account_enroll_date,account_expire_date,account,password,account_credit,account_credit,'0','22']
print(input_list)
commit = input("\033[33;1mCommit account or exit:(Y/N)\033[0m").strip().upper()
if commit == 'Y':
accounts.add_account(*input_list)
exit_flag = True
else:
exit_flag = True
@login_required
def change_credit(acc_data):
""" Change account credit amount
:param acc_data:
:return:
"""
exit_flag = False
while not exit_flag:
dis_account = input("\033[33;1mInput account:\033[0m").strip()
if dis_account == 'b':
exit_flag = True
elif len(dis_account) > 0:
if accounts.load_accounts(dis_account):
new_credits = input("\033[33;1mInput new credits amount:\033[0m").strip()
if len(new_credits) > 0 and new_credits.isdigit():
accounts.change_account(dis_account, 'credit = %s' % new_credits)
else:
print('\033[31;1m[%s] is not a valid amount, only accept integer!\033[0m' % new_credits)
else:
print("\033[31;1mThe account you entered is not a bank user!\033[0m")
@login_required
def disable_account(acc_data):
""" Disable account
:return:
"""
exit_flag = False
while not exit_flag:
dis_account = input("\033[33;1mInput account:\033[0m").strip()
if dis_account == 'b':
exit_flag = True
elif len(dis_account) > 0:
if accounts.load_accounts(dis_account):
accounts.change_account(dis_account, 'status = 1')
else:
print("\033[31;1mThe account you entered is not a bank user!\033[0m")
@login_required
def enable_account(acc_data):
""" Enable account
:return:
"""
exit_flag = False
while not exit_flag:
dis_account = input("\033[33;1mInput account:\033[0m").strip()
if dis_account == 'b':
exit_flag = True
elif len(dis_account) > 0:
if accounts.load_accounts(dis_account):
accounts.change_account(dis_account, 'status = 0')
else:
print("\033[31;1mThe account you entered is not a bank user!\033[0m")
def mg_interactive(acc_data):
""" Mange interactive main interface
:param acc_data: 返回的用户账号的具体信息
:return:
"""
menu = u'''
------- Oldboy Bank ---------
\033[32;1m1. 添加账号(功能已实现)
2. 修改额度(功能已实现)
3. 禁用账号(功能已实现)
4. 启用账号(功能已实现)
5. 退出(功能已实现)
\033[0m'''
menu_dic = {
'1': add_account,
'2': change_credit,
'3': disable_account,
'4': enable_account,
'5': logout,
}
exit_flag = False
while not exit_flag:
print(menu)
user_option = input(">>:").strip()
if user_option in menu_dic:
menu_dic[user_option](acc_data)
else:
print("\033[31;1mOption does not exist!\033[0m")
def run(type):
"""
this function will be called right a way when the program started, here handles the user interaction stuff
:return:
"""
if type == 'atm':
acc_data = auth.acc_login(user_data, access_logger, 'atm')
if user_data['is_authenticated']:
user_data['account_data'] = acc_data
interactive(user_data)
elif type == 'manage':
acc_data = auth.acc_login(user_data, access_logger, 'manage')
if user_data['is_authenticated']:
user_data['account_data'] = acc_data
mg_interactive(user_data)
parsers.py
# -*- coding: utf-8 -*-
import re
#from .help import help
def parsers(sql_str, sql_type, base_dir):
""" 语法解析函数
:param sql_type: 从main()函数导入的sql语句类型。
:return:
parsers_dict[sql_type]
相应的语法解析函数
"""
parsers_dict = {'select': select_parser,
'add': add_parser,
'del': del_parser,
'update': update_parser}
if sql_type in parsers_dict:
return parsers_dict[sql_type](sql_str, sql_type, base_dir)
else:
return False
def select_parser(sql_str, sql_type, base_dir):
""" 搜索语句解析函数
:param sql_str: 用户输入的sql语句
:param sql_type: 用户输入的sql语句类型
:param base_dir: 主函数导入的数据库所在路径
:return:
"""
dict_sql = {} # 创建空字典
command_parse = re.search(r'select\s(.*?)\sfrom\s(.*?)\swhere\s(.*)', sql_str, re.I) # 使用正则表达式解析add语法,并且re.I忽略大小写
if command_parse:
dict_sql['select'] = command_parse.group(1)
dict_sql['from'] = base_dir + command_parse.group(2) # sql字典'from’键添加数据库表文件路径的值
dict_sql['where'] = command_parse.group(3) # sql字典‘where’键添加插入的值
if logic_cal(dict_sql['where']): # 使用logic_cal函数将where语句语法再次进行解析
dict_sql['where'] = logic_cal(dict_sql['where']) # 如解析有返回值,将返回值重新作为dict_sql['where']的值
return dict_sql
else:
print(help(sql_type)) # 当语法解析不正常答应帮助
else:
print(help(sql_type)) # 当语法解析不正常答应帮助
def add_parser(sql_str, sql_type, base_dir):
""" 添加语句解析函数
:param sql_str: 用户输入的sql语句
:param sql_type: 用户输入的sql语句类型
:param base_dir: 主函数导入的数据库所在路径
:return:
dict_sql
解析后的字典格式sql语句
"""
dict_sql = {}
command_parse = re.search(r'add\sto\s(.*?)\svalues\s(.*)', sql_str, re.I) # 使用正则表达式解析add语法,并且re.I忽略大小写
if command_parse:
dict_sql['to'] = base_dir + command_parse.group(1) # sql字典'to’键添加数据库表文件路径的值
dict_sql['values'] = command_parse.group(2).split(',') # sql字典‘values’键添加插入的值
return dict_sql
else:
print(help(sql_type)) # 当语法解析不正常答应帮助
def del_parser(sql_str, sql_type, base_dir):
""" 删除语句解析函数
:param sql_str: 用户输入的sql语句
:param sql_type: 用户输入的sql语句类型
:param base_dir: 主函数导入的数据库所在路径
:return:
dict_sql
解析后的字典格式sql语句
"""
dict_sql = {}
command_parse = re.search(r'del\sfrom\s(.*?)\swhere\s(.*)', sql_str, re.I)
if command_parse:
dict_sql['from'] = base_dir + command_parse.group(1) # sql字典'to’键添加数据库表文件路径的值
dict_sql['where'] = command_parse.group(2) # sql字典‘where’键添加插入的值
if logic_cal(dict_sql['where']): # 使用logic_cal函数将where语句语法再次进行解析
dict_sql['where'] = logic_cal(dict_sql['where']) # 如解析有返回值,将返回值重新作为dict_sql['where']的值
return dict_sql
else:
print(help(sql_type)) # 当语法解析不正常答应帮助
else:
print(help(sql_type)) # 当语法解析不正常答应帮助
def update_parser(sql_str, sql_type, base_dir):
""" 更新语句解析函数
:param sql_str: 用户输入的sql语句
:param sql_type: 用户输入的sql语句类型
:param base_dir: 主函数导入的数据库所在路径
:return:
dict_sql
解析后的字典格式sql语句
"""
dict_sql = {}
command_parse = re.search(r'update\s(.*?)\sset\s(.*?)=(.*?)\swhere\s(.*)', sql_str, re.I)
if command_parse:
dict_sql['update'] = base_dir + command_parse.group(1) # sql字典'to’键添加数据库表文件路径的值
dict_sql['set'] = [command_parse.group(2), '=', command_parse.group(3)] # sql字典‘where’键添加插入的值
dict_sql['where'] = command_parse.group(4)
if logic_cal(dict_sql['where']) and logic_cal(dict_sql['set']): # 如果where语句、set语句都符合logic_cal中定义的规范
dict_sql['where'] = logic_cal(dict_sql['where']) # 如解析有返回值,将返回值重新作为dict_sql['where']的值
dict_sql['set'] = logic_cal(dict_sql['set']) # 如解析有返回值,将返回值重新作为dict_sql['set']的值
return dict_sql
else:
print(help(sql_type)) # 当语法解析不正常答应帮助
else:
print(help(sql_type)) # 当语法解析不正常答应帮助
def logic_cal(logic_exp):
""" 逻辑函数
:param logic_exp: sql语句中和逻辑判断相关的语句,列表格式。如[‘age','>=',20] 或 [‘dept','like','HR']
:return:
logic_exp
经过语法解析后的逻辑判断语句。列表格式。如[‘age','==',20] 或 [‘dept','like','HR']
"""
# 表达式列表优化成三个元素,形如[‘age','>=',20] 或 [‘dept','like','HR']
logic_exp = re.search('(.+?)\s([=<>]{1,2}|like)\s(.+)', ''.join(logic_exp))
if logic_exp:
logic_exp = list(logic_exp. group(1, 2, 3)) # 取得re匹配的所有值,并作为一个列表
if logic_exp[1] == '=':
logic_exp[1] = '=='
# 判断逻辑运算的比较符号后的值是否字母,并且用户是否输入了双引号。如没有输入手工添加上双引号。
if not logic_exp[2].isdigit() and not re.search('"(.*?)"', logic_exp[2]):
logic_exp[2] = '"' + logic_exp[2] + '"'
return logic_exp
else:
return False
transaction.py
#!_*_coding:utf-8_*_
from conf import settings
from core import accounts
from core import logger
from core import parsers
from core import actions
#transaction logger
def make_transaction(log_obj, account_data, tran_type, amount, **others):
'''
deal all the user transactions
:param account_data: user account data
:param tran_type: transaction type
:param amount: transaction amount
:param others: mainly for logging usage
:return:
'''
amount = float(amount)
if tran_type in settings.TRANSACTION_TYPE:
interest = amount * settings.TRANSACTION_TYPE[tran_type]['interest']
old_balance = float(account_data['balance'])
if settings.TRANSACTION_TYPE[tran_type]['action'] == 'plus':
new_balance = old_balance + amount + interest
elif settings.TRANSACTION_TYPE[tran_type]['action'] == 'minus':
new_balance = old_balance - amount - interest
#check credit
if new_balance <0:
print('''\033[31;1mYour credit [%s] is not enough for this transaction [-%s], your current balance is \
[%s]''' %(account_data['credit'],(amount + interest), old_balance ))
return
account_data['balance'] = new_balance
base_dir = settings.DATABASE['path']
sql_str = 'update accounts_table set balance = %s where account = %s' % (new_balance, account_data['account'])
sql_type = sql_str.split()[0]
dict_sql = parsers.parsers(sql_str, sql_type, base_dir)
actions.actions(sql_type, dict_sql)
# accounts.dump_account(account_data) # save the new balance back to file
log_obj.info("account:%s action:%s amount:%s interest:%s" %
(account_data['account'], tran_type, amount,interest) )
return account_data
else:
print("\033[31;1mTransaction type [%s] is not exist!\033[0m" % tran_type)
启动命令
启动命令。
python atm.py
python manage.py
发布信息
- 作者:henryyuan
- 日期:2018/03/05
- 版本:Version 1.0
- 工具:PyCharm 2017.3.3
- 版本:Python 3.6.4
- MarkDown工具:pycharm
- 流程图工具:ProcessOn
新闻
无
历史记录
2018-3-5 Version:1.0
遇到的问题:
1.) 在main.py接口中的add_account()函数。用于添加账号。需要输入多个input条件。代码如下:
account_name = input("\033[33;1mInput user name:\033[0m").strip()
# 有点重复代码的感觉
if len(account_name) > 0:
account_name = account_name
else:
continue
account_age = input("\033[33;1mInput user age:\033[0m").strip()
# 有点重复代码的感觉
if len(account_name) > 0 and account_age.isdigit():
account_age = account_age
else:
continue
account_phone = input("\033[33;1mInput user phone number:\033[0m").strip()
# 有点重复代码的感觉
if len(account_phone) > 0 and account_phone.isdigit() and len(account_phone) == 11:
account_phone = account_phone
else:
continue
每个input语句都需要有if的判断,但当有多个input输入语句时,就会出现过多的重复的if代码。如何减少if语句的代码量。