#!/usr/bin/python # -*- coding: utf-8 -*- import sqlalchemy from sqlalchemy.sql import func from sqlalchemy import desc import re, sys, os, traceback, signal, readline from select import select from helpers import * import random from statistikkHelpers import statisticsTextOnly from math import ceil random.seed() exit_commands = ['exit', 'abort', 'quit', 'bye', 'eat flaming death', 'q'] help_commands = ['help', '?'] context_commands = ['what', '??'] local_help_commands = ['help!', '???'] faq_commands = ['faq'] restart_commands = ['restart'] low_credit_warning_limit = -100 class ExitMenu(Exception): pass class Menu(): def __init__(self, name, items=[], prompt='> ', return_index=True, exit_msg=None, exit_confirm_msg=None, exit_disallowed_msg=None, help_text=None, uses_db=False): self.name = name self.items = items self.prompt = prompt self.return_index = return_index self.exit_msg = exit_msg self.exit_confirm_msg = exit_confirm_msg self.exit_disallowed_msg = exit_disallowed_msg self.help_text = help_text self.context = None self.header_format = '[%s]' self.uses_db = uses_db self.session = None def exit_menu(self): if self.exit_disallowed_msg != None: print self.exit_disallowed_msg return if self.exit_confirm_msg != None: if not self.confirm(self.exit_confirm_msg, default=True): return raise ExitMenu() def at_exit(self): if self.exit_msg: print self.exit_msg def set_context(self, string, display=True): self.context = string if self.context != None and display: print self.context def add_to_context(self, string): self.context += string def printc(self, string): print string if self.context == None: self.context = string else: self.context += '\n' + string def show_context(self): print self.header_format % self.name if self.context != None: print self.context def item_is_submenu(self, i): return isinstance(self.items[i], Menu) def item_name(self, i): if self.item_is_submenu(i): return self.items[i].name elif isinstance(self.items[i], tuple): return self.items[i][1] else: return self.items[i] def item_value(self, i): if isinstance(self.items[i], tuple): return self.items[i][0] if self.return_index: return i return self.items[i] def input_str(self, prompt=None, regex=None, length_range=(None,None), empty_string_is_none=False, timeout=0): if prompt == None: prompt = self.prompt if regex != None: while True: result = self.input_str(prompt, length_range=length_range, empty_string_is_none=empty_string_is_none) if result == None or re.match(regex+'$', result): return result else: print 'Value must match regular expression "%s"' % regex if length_range != (None,None): while True: result = self.input_str(prompt, empty_string_is_none=empty_string_is_none) if result == None: length = 0 else: length = len(result) if ((length_range[0] and length < length_range[0]) or (length_range[1] and length > length_range[1])): if length_range[0] and length_range[1]: print 'Value must have length in range [%d,%d]' % length_range elif length_range[0]: print 'Value must have length at least %d' % length_range[0] else: print 'Value must have length at most %d' % length_range[1] else: return result if timeout != 0: print prompt, rlist, _, _ = select([sys.stdin], [], [], timeout) if rlist: s = sys.stdin.readline() return s else: return '' while True: try: result = unicode(raw_input(safe_str(prompt)), conf.input_encoding).strip() except EOFError: print 'quit' self.exit_menu() continue if result in exit_commands: self.exit_menu() continue if result in help_commands: self.general_help() continue if result in local_help_commands: self.local_help() continue if result in context_commands: self.show_context() print 'hei hello' continue if result in faq_commands: FAQMenu().execute() continue if result in restart_commands: if self.confirm('Restart Dibbler?'): restart() continue if empty_string_is_none and result == '': return None return result def special_input_choice(self, str): ''' Handle choices which are not simply menu items. Override this in subclasses to implement magic menu choices. Return True if str was some valid magic menu choice, False otherwise. ''' return False def input_choice(self, number_of_choices, prompt=None): if prompt == None: prompt = self.prompt while True: result = self.input_str(prompt) if result == '': print 'Please enter something' # 'c' i hovedmenyen for å endre farger elif result == 'c': os.system('echo -e "\033['+str(random.randint(40,49))+';'+str(random.randint(30,37))+';5m"') os.system('clear') self.show_context() # 'cs' i hovedmenyen for å sette standardfarger elif result == 'cs': os.system('echo -e "\033[0m"') os.system('clear') self.show_context() else: if result.isdigit(): choice = int(result) if (choice == 0 and 10 <= number_of_choices): return 10 if (choice > 0 and choice <= number_of_choices): return choice if not self.special_input_choice(result): self.invalid_menu_choice(result) def invalid_menu_choice(self, str): print 'Please enter a valid choice.' def input_int(self, prompt=None, allowed_range=(None,None), null_allowed=False, default=None): if prompt == None: prompt = self.prompt if default is not None: prompt += ("[%s] " % default) while True: result = self.input_str(prompt) if result == '': if default is not None: return default elif null_allowed: return False try: value = int(result) if ((allowed_range[0] and value < allowed_range[0]) or (allowed_range[1] and value > allowed_range[1])): if allowed_range[0] and allowed_range[1]: print 'Value must be in range [%d,%d]' % allowed_range elif allowed_range[0]: print 'Value must be at least %d' % allowed_range[0] else: print 'Value must be at most %d' % allowed_range[1] else: return value except ValueError: print "Please enter an integer" def input_user(self, prompt=None): user = None while user == None: user = self.retrieve_user(self.input_str(prompt)) return user def retrieve_user(self, search_str): return self.search_ui(search_user, search_str, 'user') def input_product(self, prompt=None): product = None while product == None: product = self.retrieve_product(self.input_str(prompt)) return product def retrieve_product(self, search_str): return self.search_ui(search_product, search_str, 'product') def input_thing(self, prompt=None, permitted_things=('user','product'), add_nonexisting=(), empty_input_permitted=False): result = None while result == None: search_str = self.input_str(prompt) if search_str == '' and empty_input_permitted: return None result = self.search_for_thing(search_str, permitted_things, add_nonexisting) return result def input_multiple(self, prompt=None, permitted_things=('user','product'), add_nonexisting=(), empty_input_permitted=False): result=None while result == None: search_str = self.input_str(prompt) search_lst = search_str.split(" ") if search_str == '' and empty_input_permitted: return None else: result = self.search_for_thing(search_str, permitted_things, add_nonexisting) num = 1 if (result == None) and (len(search_lst) > 1): print 'Interpreting input as " "' try: num = int(search_lst[0]) result = self.search_for_thing(" ".join(search_lst[1:]), permitted_things,add_nonexisting) # Her kan det legges inn en except ValueError, # men da blir det fort mye plaging av brukeren except: pass return (result,num) def search_for_thing(self, search_str, permitted_things=('user','product'), add_nonexisting=()): search_fun = {'user': search_user, 'product': search_product} results = {} result_values = {} for thing in permitted_things: results[thing] = search_fun[thing](search_str, self.session) result_values[thing] = self.search_result_value(results[thing]) selected_thing = argmax(result_values) if results[selected_thing] == []: thing_for_type = {'card': 'user', 'username': 'user', 'bar_code': 'product', 'rfid': 'rfid'} type_guess = guess_data_type(search_str) if type_guess != None and thing_for_type[type_guess] in add_nonexisting: return self.search_add(search_str) #print 'No match found for "%s".' % search_str return None return self.search_ui2(search_str, results[selected_thing], selected_thing) def search_result_value(self, result): if result == None: return 0 if not isinstance(result, list): return 3 if len(result) == 0: return 0 if len(result) == 1: return 2 return 1 def search_add(self, string): type_guess = guess_data_type(string) if type_guess == 'username': print '"%s" looks like a username, but no such user exists.' % string if self.confirm('Create user %s?' % string): user = User(string, None) self.session.add(user) return user return None if type_guess == 'card': selector = Selector('"%s" looks like a card number, but no user with that card number exists.' % string, [('create', 'Create user with card number %s' % string), ('set', 'Set card number of an existing user to %s' % string)]) selection = selector.execute() if selection == 'create': username = self.input_str('Username for new user (should be same as PVV username)> ', User.name_re, (1,10)) user = User(username, string) self.session.add(user) return user if selection == 'set': user = self.input_user('User to set card number for> ') old_card = user.card user.card = string print 'Card number of %s set to %s (was %s)' % (user.name, string, old_card) return user return None if type_guess == 'bar_code': print '"%s" looks like the bar code for a product, but no such product exists.' % string return None def search_ui(self, search_fun, search_str, thing): result = search_fun(search_str, self.session) return self.search_ui2(search_str, result, thing) def search_ui2(self, search_str, result, thing): if not isinstance(result, list): return result if len(result) == 0: print 'No %ss matching "%s"' % (thing, search_str) return None if len(result) == 1: msg = 'One %s matching "%s": %s. Use this?' % \ (thing, search_str, unicode(result[0])) if self.confirm(msg, default=True): return result[0] return None limit = 9 if len(result) > limit: select_header = '%d %ss matching "%s"; showing first %d' % \ (len(result), thing, search_str, limit) select_items = result[:limit] else: select_header = '%d %ss matching "%s"' % \ (len(result), thing, search_str) select_items = result selector = Selector(select_header, items=select_items, return_index=False) return selector.execute() def confirm(self, prompt, default=None, timeout=0): return ConfirmMenu(prompt, default, timeout).execute() def print_header(self): print print self.header_format % self.name def pause(self): self.input_str('.') def general_help(self): print ''' DIBBLER HELP The following commands are recognized (almost) everywhere: help, ? -- display this help what, ?? -- redisplay the current context help!, ??? -- display context-specific help (if any) faq -- display frequently asked questions (with answers) exit, quit, etc. -- exit from the current menu When prompted for a user, you can type (parts of) the user name or card number. When prompted for a product, you can type (parts of) the product name or barcode. About payment and "credit": When paying for something, use either Dibbler or the good old money box -- never both at the same time. Dibbler keeps track of a "credit" for each user, which is the amount of money PVVVV owes the user. This value decreases with the appropriate amount when you register a purchase, and you may increase it by putting money in the box and using the "Adjust credit" menu. ''' def local_help(self): if self.help_text == None: print 'no help here' else: print print 'Help for %s:' % (self.header_format%self.name) print self.help_text def execute(self, **kwargs): self.set_context(None) try: if self.uses_db and not self.session: self.session = Session() return self._execute(**kwargs) except ExitMenu: self.at_exit() return None finally: if self.session != None: self.session.close() self.session = None def _execute(self): line_format = '%' + str(len(str(len(self.items)))) + 'd ) %s' while True: self.print_header() self.set_context(None) if len(self.items)==0: self.printc('(empty menu)') self.pause() return None for i in range(len(self.items)): self.printc(line_format % (i+1, self.item_name(i))) item_i = self.input_choice(len(self.items), prompt=self.prompt) -1 if self.item_is_submenu(item_i): self.items[item_i].execute() else: return self.item_value(item_i) class Selector(Menu): def __init__(self, name, items=[], prompt='select> ', return_index=True, exit_msg=None, exit_confirm_msg=None, help_text=None): Menu.__init__(self, name, items, prompt, return_index, exit_msg) self.header_format = '%s' def print_header(self): print self.header_format % self.name def local_help(self): if self.help_text == None: print 'This is a selection menu. Enter one of the listed numbers, or' print '\'exit\' to go out and do something else.' else: print print 'Help for selector (%s):' % self.name print self.help_text class ConfirmMenu(Menu): def __init__(self, prompt='confirm?', default=None, timeout=0): Menu.__init__(self, 'question', prompt=prompt, exit_disallowed_msg='Please answer yes or no') self.default=default self.timeout=0 def _execute(self): options = {True: '[y]/n', False: 'y/[n]', None: 'y/n'}[self.default] while True: result = self.input_str('%s (%s) ' % (self.prompt, options), timeout=self.timeout) result = result.lower() if result in ['y','yes']: return True if result in ['n','no']: return False if self.default != None and result == '': return self.default print 'Please answer yes or no' class MessageMenu(Menu): def __init__(self, name, message, pause_after_message=True): Menu.__init__(self, name) self.message = message.strip() self.pause_after_message = pause_after_message def _execute(self): self.print_header() print print self.message if self.pause_after_message: self.pause() class FAQMenu(Menu): def __init__(self): Menu.__init__(self, 'Frequently Asked Questions') self.items = [MessageMenu('What is the meaning with this program?', ''' We want to avoid keeping lots of cash in PVVVV\'s money box and to make it easy to pay for stuff without using money. (Without using money each time, that is. You do of course have to pay for the things you buy eventually). Dibbler stores a "credit" amount for each user. When you register a purchase in Dibbler, this amount is decreased. To increase your credit, add money to the money box and use "Adjust credit" to tell Dibbler about it. '''), MessageMenu('Can I still pay for stuff using cash?', 'Yes. You can safely ignore this program completely.'), MessageMenu('How do I exit from a submenu/dialog/thing?', 'Type "exit" or C-d.'), MessageMenu('What does "." mean?', ''' The "." character, known as "full stop" or "period", is most often used to indicate the end of a sentence. It is also used by Dibbler to indicate that the program wants you to read some text before continuing. Whenever some output ends with a line containing only a period, you should read the lines above and then press enter to continue. '''), MessageMenu('Why is the user interface so terribly unintuitive?', ''' Answer #1: It is not. Answer #2: We are trying to compete with PVV\'s microwave oven in userfriendliness. Answer #3: YOU are unintuitive. '''), MessageMenu('Why is there no help command?', 'There is. Have you tried typing "help"?'), MessageMenu('Where are the easter eggs? I tried saying "moo", but nothing happened.', 'Don\'t say "moo".'), MessageMenu('Why does the program speak English when all the users are Norwegians?', u'Godt spørsmål. Det virket sikkert som en god idé der og da.'), MessageMenu('I found a bug; is there a reward?', ''' No. But if you are certain that it is a bug, not a feature, then you should fix it (or better: force someone else to do it). Follow this procedure: 1. Check out the Dibbler code from https://dev.pvv.ntnu.no/svn/dibbler 2. Fix the bug. 3. Check that the program still runs (and, preferably, that the bug is in fact fixed). 4. Commit. 5. Update the running copy from svn: $ su - # su -l -s /bin/bash pvvvv $ cd dibbler $ svn up 6. Type "restart" in Dibbler to replace the running process by a new one using the updated files. '''), MessageMenu('My question isn\'t listed here; what do I do?', ''' DON\'T PANIC. Follow this procedure: 1. Ask someone (or read the source code) and get an answer. 2. Check out the Dibbler code from https://dev.pvv.ntnu.no/svn/dibbler 3. Add your question (with answer) to the FAQ and commit. 4. Update the running copy from svn: $ su - # su -l -s /bin/bash pvvvv $ cd dibbler $ svn up 5. Type "restart" in Dibbler to replace the running process by a new one using the updated files. ''')] class TransferMenu(Menu): def __init__(self): Menu.__init__(self, 'Transfer credit between users', uses_db=True) def _execute(self): self.print_header() amount = self.input_int('Transfer amount> ', (1,100000)) self.set_context('Transfering %d kr' % amount, display=False) user1 = self.input_user('From user> ') self.add_to_context(' from ' + user1.name) user2 = self.input_user('To user> ') self.add_to_context(' to ' + user2.name) t1 = Transaction(user1, amount, 'transfer to '+user2.name) t2 = Transaction(user2, -amount, 'transfer from '+user1.name) t1.perform_transaction() t2.perform_transaction() self.session.add(t1) self.session.add(t2) try: self.session.commit() print 'Transfered %d kr from %s to %s' % (amount, user1, user2) print 'User %s\'s credit is now %d kr' % (user1, user1.credit) print 'User %s\'s credit is now %d kr' % (user2, user2.credit) except sqlalchemy.exc.SQLAlchemyError, e: print 'Could not perform transfer: %s' % e self.pause() class AddUserMenu(Menu): def __init__(self): Menu.__init__(self, 'Add user', uses_db=True) def _execute(self): self.print_header() username = self.input_str('Username (should be same as PVV username)> ', User.name_re, (1,10)) cardnum = self.input_str('Card number (optional)> ', User.card_re, (0,10)) cardnum = cardnum.lower() rfid = self.input_str('RFID (optional)> ', User.rfid_re, (0,10)) user = User(username, cardnum, rfid) self.session.add(user) try: self.session.commit() print 'User %s stored' % username except sqlalchemy.exc.IntegrityError, e: print 'Could not store user %s: %s' % (username,e) self.pause() class EditUserMenu(Menu): def __init__(self): Menu.__init__(self, 'Edit user', uses_db=True) self.help_text = ''' The only editable part of a user is its card number and rfid. First select an existing user, then enter a new card number for that user, then rfid (write an empty line to remove the card number or rfid). ''' def _execute(self): self.print_header() user = self.input_user('User> ') self.printc('Editing user %s' % user.name) card_str = '"%s"' % user.card if user.card == None: card_str = 'empty' user.card = self.input_str('Card number (currently %s)> ' % card_str, User.card_re, (0,10), empty_string_is_none=True) if user.card: user.card = user.card.lower() rfid_str = '"%s"' % user.rfid if user.rfid == None: rfid_str = 'empty' user.rfid = self.input_str('RFID (currently %s)> ' % rfid_str, User.rfid_re, (0,10), empty_string_is_none=True) try: self.session.commit() print 'User %s stored' % user.name except sqlalchemy.exc.SQLAlchemyError, e: print 'Could not store user %s: %s' % (user.name,e) self.pause() class AddProductMenu(Menu): def __init__(self): Menu.__init__(self, 'Add product', uses_db=True) def _execute(self): self.print_header() bar_code = self.input_str('Bar code> ', Product.bar_code_re, (8,13)) name = self.input_str('Name> ', Product.name_re, (1,Product.name_length)) price = self.input_int('Price> ', (1,100000)) product = Product(bar_code, name, price) self.session.add(product) try: self.session.commit() print 'Product %s stored' % name except sqlalchemy.exc.SQLAlchemyError, e: print 'Could not store product %s: %s' % (name,e) self.pause() class EditProductMenu(Menu): def __init__(self): Menu.__init__(self, 'Edit product', uses_db=True) def _execute(self): self.print_header() product = self.input_product('Product> ') self.printc('Editing product %s' % product.name) while True: selector = Selector('Do what with %s?' % product.name, items=[('name', 'Edit name'), ('price', 'Edit price (currently %d)' % product.price), ('store', 'Store')]) what = selector.execute() if what == 'name': product.name = self.input_str('Name> ', Product.name_re, (1,product.name_length)) elif what == 'price': product.price = self.input_int('Price> ', (1,100000)) elif what == 'store': try: self.session.commit() print 'Product %s stored' % product.name except sqlalchemy.exc.SQLAlchemyError, e: print 'Could not store product %s: %s' % (product.name, e) self.pause() return elif what == None: print 'Edit aborted' return else: print 'What what?' class ShowUserMenu(Menu): def __init__(self): Menu.__init__(self, 'Show user', uses_db=True) def _execute(self): self.print_header() user = self.input_user('User name, card number or RFID> ') print 'User name: %s' % user.name print 'Card number: %s' % user.card print 'RFID: %s' % user.rfid print 'Credit: %s kr' % user.credit selector = Selector('What do you want to know about %s?' % user.name, items=[('transactions', 'Everything (list of all transactions)'), ('products', 'Which products %s has bought, and how many' % user.name)]) what = selector.execute() if what == 'transactions': self.print_all_transactions(user) elif what == 'products': self.print_purchased_products(user) else: print 'What what?' def print_all_transactions(self, user): num_trans = len(user.transactions) string = '%s\'s transactions (%d):\n' % (user.name, num_trans) for t in user.transactions: string += ' * %s: %s %d kr, ' % \ (t.time.strftime('%Y-%m-%d %H:%M'), {True:'in', False:'out'}[t.amount<0], abs(t.amount)) if t.purchase: string += 'purchase (' string += ', '.join(map(lambda e: e.product.name, t.purchase.entries)) string += ')' else: string += t.description string += '\n' less(string) def print_transactions(self, user, limit=10): num_trans = len(user.transactions) if num_trans == 0: print 'No transactions' return if num_trans <= limit: print 'Transactions (%d):' % num_trans else: print 'Transactions (%d, showing only last %d):' % (num_trans,limit) for t in user.transactions[-limit:]: string = ' * %s: %s %d kr, ' % \ (t.time.strftime('%Y-%m-%d %H:%M'), {True:'in', False:'out'}[t.amount<0], abs(t.amount)) if t.purchase: string += 'purchase (' string += ', '.join(map(lambda e: e.product.name, t.purchase.entries)) string += ')' else: string += t.description print string def print_purchased_products(self, user): products = {} for transaction in user.transactions: if transaction.purchase: for entry in transaction.purchase.entries: n = entry.product.name if n in products: products[n]+=1 else: products[n]=1 num_products = len(products) if num_products == 0: print 'No products purchased yet' else: text = '' text += 'Products purchased:\n' for product in products: text += ('%-'+str(Product.name_length)+'s %3i\n') \ % (product, products[product]) less(text) class UserListMenu(Menu): def __init__(self): Menu.__init__(self, 'User list', uses_db=True) def _execute(self): self.print_header() user_list = self.session.query(User).all() total_credit = self.session.query(sqlalchemy.func.sum(User.credit)).first()[0] line_format = '%-12s | %6s\n' hline = '---------------------\n' text = '' text += line_format % ('username', 'credit') text += hline for user in user_list: text += line_format % (user.name, user.credit) text += hline text += line_format % ('total credit', total_credit) less(text) class BuyMenu(Menu): def __init__(self, session=None): Menu.__init__(self, 'Buy', uses_db=True) if session: self.session = session self.superfast_mode = False self.help_text = ''' Each purchase may contain one or more products and one or more buyers. Enter products (by name or bar code) and buyers (by name or bar code) in any order. The information gathered so far is displayed after each addition, and you can type 'what' at any time to redisplay it. When finished, write an empty line to confirm the purchase. ''' def credit_check(self, user): """ :param user: :type user: User :rtype: boolean """ assert isinstance(user, User) return user.credit > low_credit_warning_limit def low_credit_warning(self, user, timeout=False): assert isinstance(user, User) print "***********************************************************************" print "***********************************************************************" print print "$$\ $$\ $$$$$$\ $$$$$$$\ $$\ $$\ $$$$$$\ $$\ $$\ $$$$$$\\" print "$$ | $\ $$ |$$ __$$\ $$ __$$\ $$$\ $$ |\_$$ _|$$$\ $$ |$$ __$$\\" print "$$ |$$$\ $$ |$$ / $$ |$$ | $$ |$$$$\ $$ | $$ | $$$$\ $$ |$$ / \__|" print "$$ $$ $$\$$ |$$$$$$$$ |$$$$$$$ |$$ $$\$$ | $$ | $$ $$\$$ |$$ |$$$$\\" print "$$$$ _$$$$ |$$ __$$ |$$ __$$< $$ \$$$$ | $$ | $$ \$$$$ |$$ |\_$$ |" print "$$$ / \$$$ |$$ | $$ |$$ | $$ |$$ |\$$$ | $$ | $$ |\$$$ |$$ | $$ |" print "$$ / \$$ |$$ | $$ |$$ | $$ |$$ | \$$ |$$$$$$\ $$ | \$$ |\$$$$$$ |" print "\__/ \__|\__| \__|\__| \__|\__| \__|\______|\__| \__| \______/" print print "***********************************************************************" print "***********************************************************************" print print "USER %s HAS LOWER CREDIT THAN %d." % (user.name, low_credit_warning_limit) print "THIS PURCHASE WILL CHARGE YOUR CREDIT TWICE AS MUCH." print "CONSIDER PUTTING MONEY IN THE BOX TO AVOID THIS." print print "Do you want to continue with this purchase?" if timeout: print "THIS PURCHASE WILL AUTOMATICALLY BE PERFORMED IN 3 MINUTES!" return self.confirm(prompt=">", default=True, timeout=180) else: return self.confirm(prompt=">") def add_thing_to_purchase(self, thing): if isinstance(thing, User): if thing.is_anonymous(): print '--------------------------------------------' print 'You are now purchasing as the user anonym.' print 'You have to put money in the anonym-jar.' print '--------------------------------------------' if not self.credit_check(thing): if self.low_credit_warning(thing, self.superfast_mode ): Transaction(thing, purchase=self.purchase, penalty_ratio=2) else: return False else: Transaction(thing, purchase=self.purchase) elif isinstance(thing, Product): PurchaseEntry(self.purchase, thing, 1) def _execute(self, initialContents=[]): self.print_header() self.purchase = Purchase() self.exit_confirm_msg=None self.superfast_mode = False for thing in initialContents: self.add_thing_to_purchase(thing) isproduct = lambda t: isinstance(t, Product) if len(initialContents) > 0 and all(map(isproduct, initialContents)): self.superfast_mode = True print '***********************************************' print '****** Buy menu is in SUPERFASTmode[tm]! ******' print '*** The purchase will be stored immediately ***' print '*** when you enter a user. ***' print '***********************************************' while True: self.print_purchase() self.printc({(False,False): 'Enter user or product identification', (False,True): 'Enter user identification or more products', (True,False): 'Enter product identification or more users', (True,True): 'Enter more products or users, or an empty line to confirm' }[(len(self.purchase.transactions) > 0, len(self.purchase.entries) > 0)]) # Read in a 'thing' (product or user): thing = self.input_thing(add_nonexisting=('user',), empty_input_permitted=True) # Possibly exit from the menu: if thing == None: if not self.complete_input(): if self.confirm('Not enough information entered. Abort purchase?', default=True): return False continue break else: # once we get something in the # purchase, we want to protect the # user from accidentally killing it self.exit_confirm_msg='Abort purchase?' # Add the thing to our purchase object: self.add_thing_to_purchase(thing) # In superfast mode, we complete the purchase once we get a user: if self.superfast_mode and isinstance(thing, User): break self.purchase.perform_purchase() self.session.add(self.purchase) try: self.session.commit() except sqlalchemy.exc.SQLAlchemyError, e: print 'Could not store purchase: %s' % e else: print 'Purchase stored.' self.print_purchase() for t in self.purchase.transactions: if not t.user.is_anonymous(): print 'User %s\'s credit is now %d kr' % (t.user.name, t.user.credit) if t.user.credit < low_credit_warning_limit: print ('USER %s HAS LOWER CREDIT THAN %d, AND SHOULD CONSIDER PUTTING SOME MONEY IN THE BOX.' % (t.user.name, low_credit_warning_limit)) #skriver til log #print Product.price #with open("dibbler-out.txt", "a") as f: # f.write("purchase|"+ time() +"|"+self.purchase.entries[0].product.name+"|"+t.user.name+"|+str(Product.price)+|"+'-1'+"|\n") return True def complete_input(self): return self.purchase.is_complete() def format_purchase(self): self.purchase.set_price() transactions = self.purchase.transactions entries = self.purchase.entries if len(transactions) == 0 and len(entries) == 0: return None string = 'Purchase:' string += '\n buyers: ' if len(transactions) == 0: string += '(empty)' else: string += ', '.join(map(lambda t: t.user.name, transactions)) string += '\n products: ' if len(entries) == 0: string += '(empty)' else: string += ', '.join(map(lambda e: '%s (%d kr)'%(e.product.name, e.product.price), entries)) if len(transactions) > 1: string += '\n price per person: %d kr' % self.purchase.price_per_transaction() string += '\n total price: %d kr' % self.purchase.price return string def print_purchase(self): info = self.format_purchase() if info != None: self.set_context(info) class AdjustStockMenu(Menu): def __init__(self): Menu.__init__(self,'Adjust stock', uses_db=True) def _execute(self): self.print_header() product = self.input_product('Product> ') print 'The stock of this product is: %d ' % (product.stock) print 'Write the number of products you have added to the stock' print 'Alternatively, correct the stock for any mistakes' add_stock = self.input_int('Added stock> ', (-1000, 1000)) print 'You added %d to the stock of %s' % (add_stock,product) product.stock += add_stock print 'The stock is now %d' % (product.stock) try: self.session.commit() print 'Stock is now stored' self.pause() except sqlalchemy.exc.SQLAlchemyError, e: print 'Could not store stock: %s' % (e) self.pause() return print 'The stock is now %d' % (product.stock) class CleanupStockMenu(Menu): def __init__(self): Menu.__init__(self,'Stock Cleanup', uses_db=True) def _execute(self): self.print_header() products = self.session.query(Product).filter(Product.stock != 0).all() print "Every product in stock will be printed." print "Entering no value will keep current stock or set it to 0 if it is negative." print "Entering a value will set current stock to that value." print "Press enter to begin." self.pause() changed_products = [] for product in products: oldstock = product.stock product.stock = self.input_int(product.name, (0,10000), default=max(0, oldstock)) self.session.add(product) if oldstock != product.stock: changed_products.append((product, oldstock)) try: self.session.commit() print 'New stocks are now stored.' self.pause() except sqlalchemy.exc.SQLAlchemyError, e: print 'Could not store stock: %s' % (e) self.pause() return for p in changed_products: print p[0].name, ".", p[1], "->", p[0].stock class AdjustCreditMenu(Menu): # reimplements ChargeMenu; these should be combined to one def __init__(self): Menu.__init__(self, 'Adjust credit', uses_db=True) def _execute(self): self.print_header() user = self.input_user('User> ') print 'User %s\'s credit is %d kr' % (user.name, user.credit) self.set_context('Adjusting credit for user %s' % user.name, display=False) print '(Note on sign convention: Enter a positive amount here if you have' print 'added money to the PVVVV money box, a negative amount if you have' print 'taken money from it)' amount = self.input_int('Add amount> ', (-100000,100000)) print '(The "log message" will show up in the transaction history in the' print '"Show user" menu. It is not necessary to enter a message, but it' print 'might be useful to help you remember why you adjusted the credit)' description = self.input_str('Log message> ', length_range=(0,50)) if description == '': description = 'manually adjusted credit' transaction = Transaction(user, -amount, description) transaction.perform_transaction() self.session.add(transaction) try: self.session.commit() print 'User %s\'s credit is now %d kr' % (user.name, user.credit) except sqlalchemy.exc.SQLAlchemyError, e: print 'Could not store transaction: %s' % e self.pause() class ProductListMenu(Menu): def __init__(self): Menu.__init__(self, 'Product list', uses_db=True) def _execute(self): self.print_header() text = '' product_list = self.session.query(Product).all() total_value = 0 for p in product_list: total_value += p.price*p.stock line_format = '%-15s | %5s | %-'+str(Product.name_length)+'s | %5s \n' text += line_format % ('bar code', 'price', 'name', 'stock') text += 78*'-'+'\n' for p in product_list: text += line_format % (p.bar_code, p.price, p.name, p.stock) text += 78*'-'+'\n' text += line_format % ('Total value',total_value,'','', ) less(text) class ProductSearchMenu(Menu): def __init__(self): Menu.__init__(self, 'Product search', uses_db=True) def _execute(self): self.print_header() self.set_context('Enter (part of) product name or bar code') product = self.input_product() print 'Result: %s, price: %d kr, bar code: %s, stock: %d' % (product.name, product.price, product.bar_code, product.stock) self.pause() class ProductPopularityMenu(Menu): def __init__(self): Menu.__init__(self, 'Products by popularity', uses_db=True) def _execute(self): self.print_header() text = '' sub = \ self.session.query(PurchaseEntry.product_bar_code, func.count('*').label('purchase_count')) \ .group_by(PurchaseEntry.product_bar_code) \ .subquery() product_list = \ self.session.query(Product, sub.c.purchase_count) \ .outerjoin((sub, Product.bar_code==sub.c.product_bar_code)) \ .order_by(desc(sub.c.purchase_count)) \ .filter(sub.c.purchase_count != None) \ .all() line_format = '%10s | %-'+str(Product.name_length)+'s\n' text += line_format % ('items sold', 'product') text += '-'*58 + '\n' for product, number in product_list: text += line_format % (number, product.name) less(text) class ProductRevenueMenu(Menu): def __init__(self): Menu.__init__(self, 'Products by revenue', uses_db=True) def _execute(self): self.print_header() text = '' sub = \ self.session.query(PurchaseEntry.product_bar_code, func.count('*').label('purchase_count')) \ .group_by(PurchaseEntry.product_bar_code) \ .subquery() product_list = \ self.session.query(Product, sub.c.purchase_count) \ .outerjoin((sub, Product.bar_code==sub.c.product_bar_code)) \ .order_by(desc(sub.c.purchase_count*Product.price)) \ .filter(sub.c.purchase_count != None) \ .all() line_format = '%7s | %10s | %5s | %-'+str(Product.name_length)+'s\n' text += line_format % ('revenue', 'items sold', 'price', 'product') text += '-'*(31+Product.name_length) + '\n' for product, number in product_list: text += line_format % (number*product.price, number, product.price, product.name) less(text) class BalanceMenu(Menu): def __init__(self): Menu.__init__(self, 'Total balance of PVVVV', uses_db=True) def _execute(self): self.print_header() text = '' total_value = 0; product_list = self.session.query(Product).all() for p in product_list: total_value += p.stock*p.price total_credit = self.session.query(sqlalchemy.func.sum(User.credit)).first()[0] total_balance = total_value - total_credit line_format = '%15s | %5d \n' text += line_format % ('Total value', total_value) text += 24*'-'+'\n' text += line_format % ('Total credit', total_credit) text += 24*'-'+'\n' text += line_format % ('Total balance', total_balance) less(text) class LoggedStatisticsMenu(Menu): def __init__(self): Menu.__init__(self, 'Statistics from log', uses_db=True) def _execute(self): statisticsTextOnly() def restart(): # Does not work if the script is not executable, or if it was # started by searching $PATH. os.execv(sys.argv[0], sys.argv) if not conf.stop_allowed: signal.signal(signal.SIGQUIT, signal.SIG_IGN) if not conf.stop_allowed: signal.signal(signal.SIGTSTP, signal.SIG_IGN) class MainMenu(Menu): def special_input_choice(self, str): buy_menu = BuyMenu(Session()) thing = buy_menu.search_for_thing(str) if thing: buy_menu.execute(initialContents=[thing]) print self.show_context() return True return False def invalid_menu_choice(self, str): print self.show_context() class AddStockMenu(Menu): def __init__(self): Menu.__init__(self, 'Add stock and adjust credit', uses_db=True) self.help_text=''' Enter what you have bought for PVVVV here, along with your user name and how much money you're due in credits for the purchase when prompted. ''' def _execute(self): questions = { (False,False): 'Enter user id or a string of the form " "', (False,True): 'Enter user id or more strings of the form " "', (True,False): 'Enter a string of the form " "', (True,True): 'Enter more strings of the form " ", or an empty line to confirm' } self.user = None self.products = {} self.price = 0 while True: self.print_info() self.printc(questions[bool(self.user), bool(len(self.products))]) # Read in a 'thing' (product or user): line = self.input_multiple(add_nonexisting=('user','product'), empty_input_permitted=True) if line: (thing, amount) = line if isinstance(thing, Product): self.printc("%d of %s registered" % (amount, thing.name)) self.price += self.input_int('What did you pay a piece? ', (1,100000), default=thing.price) * amount # once we get something in the # purchase, we want to protect the # user from accidentally killing it self.exit_confirm_msg='Abort transaction?' else: thing = None if not self.complete_input(): if self.confirm('Not enough information entered. Abort transaction?', default=True): return False continue break # Add the thing to the pending adjustments: self.add_thing_to_pending(thing,amount) if self.confirm('Do you want to change the total amount?', default=False): self.price = self.input_int('Total amount> ', (1,100000), default=self.price) self.perform_transaction() def complete_input(self): return (bool(self.user) and len(self.products) and self.price) def print_info(self): print (6+Product.name_length)*'-' if self.price: print ("Amount to be credited: %"+str(Product.name_length-17)+"i") % (self.price) if self.user: print ("User to credit: %"+str(Product.name_length-10)+"s") % (self.user.name) print ('\n%-'+str(Product.name_length-1)+'s Amount') % ("Product") print (6+Product.name_length)*'-' if len(self.products): # print "Products added:" # print (6+Product.name_length)*'-' for product in self.products.keys(): print ('%'+str(-Product.name_length)+'s %5i') % (product.name, self.products[product]) print (6+Product.name_length)*'-' def add_thing_to_pending(self,thing,amount): if isinstance(thing,User): if self.user: print "Only one user may be credited for a purchase, transfer credit manually afterwards" return else: self.user = thing elif thing in self.products.keys(): print 'Already added this product, adding amounts' self.products[thing] += amount else: self.products[thing] = amount def perform_transaction(self): # self.user.credit += self.price description = self.input_str('Log message> ', length_range=(0,50)) if description == '': description = 'Purchased products for PVVVV, adjusted credit '+str(self.price) transaction = Transaction(self.user, -self.price, description) transaction.perform_transaction() self.session.add(transaction) for product in self.products: product.stock += self.products[product] try: self.session.commit() print "Success! Transaction performed:" # self.print_info() print "User %s's credit is now %i" % (self.user.name, self.user.credit) except sqlalchemy.exc.SQLAlchemyError, e: print 'Could not perform transaction: %s' % e main = MainMenu('Dibbler main menu', items=[BuyMenu(), ProductListMenu(), ShowUserMenu(), UserListMenu(), AdjustCreditMenu(), TransferMenu(), AddStockMenu(), Menu('Add/edit', items=[AddUserMenu(), EditUserMenu(), AddProductMenu(), EditProductMenu(), AdjustStockMenu(), CleanupStockMenu(),]), ProductSearchMenu(), Menu('Statistics', items=[ProductPopularityMenu(), ProductRevenueMenu(), BalanceMenu(), LoggedStatisticsMenu()]), FAQMenu() ], exit_msg='happy happy joy joy', exit_confirm_msg='Really quit Dibbler?') if not conf.quit_allowed: main.exit_disallowed_msg = 'You can check out any time you like, but you can never leave.' while True: try: main.execute() except KeyboardInterrupt: print print 'Interrupted.' except: print 'Something went wrong.' print '%s: %s' % sys.exc_info()[0:2] if conf.show_tracebacks: traceback.print_tb(sys.exc_info()[2]) else: break print 'Restarting main menu.'