""" Crée des opérations aléatoires réparties sur une période de temps spécifiée """ import random from datetime import timedelta from decimal import Decimal from django.utils import timezone from django.core.management.base import BaseCommand from kfet.models import (Account, Article, OperationGroup, Operation, Checkout, Transfer, TransferGroup) class Command(BaseCommand): help = "Crée des opérations réparties uniformément sur une période de temps" def add_arguments(self, parser): # Nombre d'opérations à créer parser.add_argument('opes', type=int, help='Number of opegroups to create') # Période sur laquelle créer (depuis num_days avant maintenant) parser.add_argument('days', type=int, help='Period in which to create opegroups') # Optionnel : nombre de transfert à créer (défaut 0) parser.add_argument('--transfers', type=int, default=0, help='Number of transfers to create (default 0)') def handle(self, *args, **options): self.stdout.write("Génération d'opérations") # Output log vars opes_created = 0 purchases = 0 transfers = 0 num_ops = options['opes'] num_transfers = options['transfers'] # Convert to seconds time = options['days'] * 24 * 3600 checkout = Checkout.objects.first() articles = Article.objects.all() accounts = Account.objects.exclude(trigramme='LIQ') liq_account = Account.objects.get(trigramme='LIQ') try: con_account = Account.objects.get( cofprofile__user__first_name='Assurancetourix' ) except Account.DoesNotExist: con_account = random.choice(accounts) for i in range(num_ops): # Randomly pick account if random.random() > 0.25: account = random.choice(accounts) else: account = liq_account # Randomly pick time at = timezone.now() - timedelta( seconds=random.randint(0, time)) # Majoration sur compte 'concert' if random.random() < 0.2: addcost = True addcost_for = con_account addcost_amount = Decimal('0.5') else: addcost = False # Initialize opegroup amount amount = Decimal('0') opegroup = OperationGroup( on_acc=account, checkout=checkout, is_cof=account.cofprofile.is_cof ) opegroup.save() # Generating operations for j in range(random.randint(1, 4)): # Operation type typevar = random.random() # 0.1 probability to have a charge if typevar > 0.9 and account != liq_account: ope = Operation( group=opegroup, type=Operation.DEPOSIT, is_checkout=(random.random() > 0.2), amount=Decimal(random.randint(1, 99)/10) ) # 0.1 probability to have a withdrawal elif typevar > 0.8 and account != liq_account: ope = Operation( group=opegroup, type=Operation.WITHDRAW, is_checkout=(random.random() > 0.2), amount=-Decimal(random.randint(1, 99)/10) ) else: article = random.choice(articles) nb = random.randint(1, 5) ope = Operation( group=opegroup, type=Operation.PURCHASE, amount=-article.price*nb, article=article, article_nb=nb ) purchases += 1 if addcost: ope.addcost_for = addcost_for ope.addcost_amount = addcost_amount * nb ope.amount -= ope.addcost_amount opes_created += 1 ope.save() amount += ope.amount opegroup.amount = amount opegroup.at = at opegroup.save() # Transfer generation for i in range(num_transfers): # Randomly pick time at = timezone.now() - timedelta( seconds=random.randint(0, time)) # Choose whether to have a comment if random.random() > 0.5: comment = "placeholder comment" else: comment = "" transfergroup = TransferGroup( comment=comment, valid_by=random.choice(accounts) ) transfergroup.save() # Randomly generate transfer for i in range(random.randint(1, 4)): transfer = Transfer( group=transfergroup, from_acc=random.choice(accounts), to_acc=random.choice(accounts), amount=Decimal(random.randint(1, 99)/10) ) transfer.save() transfers += 1 transfergroup.at = at transfergroup.save() self.stdout.write( "- {:d} opérations créées dont {:d} commandes d'articles" .format(opes_created, purchases)) if transfers: self.stdout.write("- {:d} transferts créés" .format(transfers))