335 lines
16 KiB
Python
335 lines
16 KiB
Python
import agentpy as ap
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class FirmAgent(ap.Agent):
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def setup(self, code, name, type_region, revenue_log, a_lst_product):
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self.firm_network = self.model.firm_network
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self.product_network = self.model.product_network
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# self parameter
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self.code = code
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self.name = name
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self.type_region = type_region
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self.size_stat = []
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self.dct_prod_up_prod_stat = {}
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self.dct_prod_capacity = {}
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# parameter in trial
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self.dct_n_trial_up_prod_disrupted = {}
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self.dct_cand_alt_supp_up_prod_disrupted = {}
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self.dct_request_prod_from_firm = {}
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# external variable
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self.is_prf_size = self.model.is_prf_size
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self.is_prf_conn = bool(self.p.prf_conn)
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self.str_cap_limit_prob_type = str(self.p.cap_limit_prob_type)
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self.flt_cap_limit_level = float(self.p.cap_limit_level)
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self.flt_diff_new_conn = float(self.p.diff_new_conn)
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# initialize size_stat (self parameter)
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# (size, time step)
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self.size_stat.append((revenue_log, 0))
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# init dct_prod_up_prod_stat (self parameter)
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for prod in a_lst_product:
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self.dct_prod_up_prod_stat[prod] = {
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# status: (Normal / Disrupted / Removed, time step)
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'p_stat': [('N', 0)],
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# supply for each component and respective disrupted supplier
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# set_disrupt_firm is refreshed to empty at each update
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's_stat': {up_prod: {'stat': True,
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'set_disrupt_firm': set()}
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for up_prod in prod.a_predecessors()}
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# Note: do not use fromkeys as it's a shallow copy
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}
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# initialize extra capacity (self parameter)
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for product in a_lst_product:
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# initialize extra capacity based on discrete uniform distribution
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assert self.str_cap_limit_prob_type in ['uniform', 'normal'], \
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"cap_limit_prob_type other than uniform, normal"
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if self.str_cap_limit_prob_type == 'uniform':
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extra_cap_mean = \
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self.size_stat[0][0] / self.flt_cap_limit_level
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extra_cap = self.model.nprandom.integers(extra_cap_mean-2,
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extra_cap_mean+2)
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extra_cap = 0 if round(extra_cap) < 0 else round(extra_cap)
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self.dct_prod_capacity[product] = extra_cap
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elif self.str_cap_limit_prob_type == 'normal':
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extra_cap_mean = \
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self.size_stat[0][0] / self.flt_cap_limit_level
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extra_cap = self.model.nprandom.normal(extra_cap_mean, 1)
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extra_cap = 0 if round(extra_cap) < 0 else round(extra_cap)
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self.dct_prod_capacity[product] = extra_cap
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def remove_edge_to_cus(self, disrupted_prod):
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# parameter disrupted_prod is the product that self got disrupted
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lst_out_edge = list(
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self.firm_network.graph.out_edges(
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self.firm_network.positions[self], keys=True, data='Product'))
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for n1, n2, key, product_code in lst_out_edge:
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if product_code == disrupted_prod.code:
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# update customer up product supplier status
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customer = ap.AgentIter(self.model, n2).to_list()[0]
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for prod in customer.dct_prod_up_prod_stat.keys():
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if disrupted_prod in \
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customer.dct_prod_up_prod_stat[
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prod]['s_stat'].keys():
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customer.dct_prod_up_prod_stat[
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prod]['s_stat'][disrupted_prod][
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'set_disrupt_firm'].add(self)
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# print(f"{self.name} disrupt {customer.name}'s "
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# f"{prod.code} due to {disrupted_prod.code}")
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# remove edge to customer
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self.firm_network.graph.remove_edge(n1, n2, key)
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def disrupt_cus_prod(self, prod, disrupted_up_prod):
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# parameter prod is the product that has disrupted_up_prod
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# parameter disrupted_up_prod is the product that
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# self's component exists disrupted supplier
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num_lost = \
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len(self.dct_prod_up_prod_stat[prod]['s_stat']
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[disrupted_up_prod]['set_disrupt_firm'])
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num_remain = \
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len([u for u, _, _, d in
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self.firm_network.graph.in_edges(self.get_firm_network_node(),
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keys=True,
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data='Product')
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if d == disrupted_up_prod.code])
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lost_percent = num_lost / (num_lost + num_remain)
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lst_size = \
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[firm.size_stat[-1][0] for firm in self.model.a_lst_total_firms]
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std_size = (self.size_stat[-1][0] - min(lst_size) + 1) \
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/ (max(lst_size) - min(lst_size) + 1)
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# calculate probability of disruption
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prob_disrupt = 1 - std_size * (1 - lost_percent)
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if self.model.nprandom.choice([True, False],
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p=[prob_disrupt,
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1 - prob_disrupt]):
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self.dct_n_trial_up_prod_disrupted[disrupted_up_prod] = 0
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self.dct_prod_up_prod_stat[
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prod]['s_stat'][disrupted_up_prod]['stat'] = False
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status, _ = self.dct_prod_up_prod_stat[
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prod]['p_stat'][-1]
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if status != 'D':
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self.dct_prod_up_prod_stat[
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prod]['p_stat'].append(('D', self.model.t))
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# print(f"{self.name}'s {prod.code} turn to D status due to "
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# f"disrupted supplier of {disrupted_up_prod.code}")
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def seek_alt_supply(self, product):
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# parameter product is the product that self is seeking
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# print(f"{self.name} seek alt supply for {product.code}")
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if self.dct_n_trial_up_prod_disrupted[
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product] <= self.model.int_n_max_trial:
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if self.dct_n_trial_up_prod_disrupted[product] == 0:
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# select a list of candidate firm that has the product
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self.dct_cand_alt_supp_up_prod_disrupted[product] = \
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self.model.a_lst_total_firms.select([
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firm.is_prod_in_current_normal(product)
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for firm in self.model.a_lst_total_firms
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])
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if self.dct_cand_alt_supp_up_prod_disrupted[product]:
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# select based on connection
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lst_firm_connect = []
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if self.is_prf_conn:
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for firm in \
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self.dct_cand_alt_supp_up_prod_disrupted[product]:
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node_self = self.get_firm_network_node()
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node_firm = firm.get_firm_network_node()
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if self.model.firm_network.graph.\
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has_edge(node_self, node_firm) or \
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self.model.firm_network.graph.\
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has_edge(node_firm, node_self):
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lst_firm_connect.append(firm)
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if len(lst_firm_connect) == 0:
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# select based on size or not
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if self.is_prf_size:
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lst_size = \
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[firm.size_stat[-1][0] for firm in
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self.dct_cand_alt_supp_up_prod_disrupted[
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product]]
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lst_prob = [size / sum(lst_size)
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for size in lst_size]
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select_alt_supply = self.model.nprandom.choice(
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self.dct_cand_alt_supp_up_prod_disrupted[product],
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p=lst_prob)
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else:
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select_alt_supply = self.model.nprandom.choice(
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self.dct_cand_alt_supp_up_prod_disrupted[product])
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elif len(lst_firm_connect) > 0:
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# select based on size of connected firm or not
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if self.is_prf_size:
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lst_firm_size = \
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[firm.size_stat[-1][0]
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for firm in lst_firm_connect]
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lst_prob = \
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[size / sum(lst_firm_size)
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for size in lst_firm_size]
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select_alt_supply = \
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self.model.nprandom.choice(lst_firm_connect,
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p=lst_prob)
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else:
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select_alt_supply = \
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self.model.nprandom.choice(lst_firm_connect)
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# print(
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# f"{self.name} selct alt supply for {product.code} "
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# f"from {select_alt_supply.name}"
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# )
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assert select_alt_supply.is_prod_in_current_normal(product), \
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f"{select_alt_supply} \
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does not produce requested product {product}"
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if product in select_alt_supply.dct_request_prod_from_firm.\
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keys():
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select_alt_supply.dct_request_prod_from_firm[
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product].append(self)
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else:
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select_alt_supply.dct_request_prod_from_firm[product] = [
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self
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]
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# print(
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# select_alt_supply.name, 'dct_request_prod_from_firm', {
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# key.code: [v.name for v in value]
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# for key, value in
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# select_alt_supply.dct_request_prod_from_firm.items()
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# })
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self.dct_n_trial_up_prod_disrupted[product] += 1
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def handle_request(self):
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# print(self.name, 'handle_request')
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for product, lst_firm in self.dct_request_prod_from_firm.items():
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if self.dct_prod_capacity[product] > 0:
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if len(lst_firm) == 0:
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continue
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elif len(lst_firm) == 1:
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self.accept_request(lst_firm[0], product)
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elif len(lst_firm) > 1:
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# handling based on connection
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lst_firm_connect = []
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if self.is_prf_conn:
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for firm in lst_firm:
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node_self = self.get_firm_network_node()
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node_firm = firm.get_firm_network_node()
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if self.model.firm_network.graph.\
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has_edge(node_self, node_firm) or \
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self.model.firm_network.graph.\
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has_edge(node_firm, node_self):
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lst_firm_connect.append(firm)
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if len(lst_firm_connect) == 0:
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# handling based on size or not
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if self.is_prf_size:
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lst_firm_size = \
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[firm.size_stat[-1][0] for firm in lst_firm]
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lst_prob = \
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[size / sum(lst_firm_size)
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for size in lst_firm_size]
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select_customer = \
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self.model.nprandom.choice(lst_firm,
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p=lst_prob)
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else:
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select_customer = \
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self.model.nprandom.choice(lst_firm)
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self.accept_request(select_customer, product)
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elif len(lst_firm_connect) > 0:
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# handling based on size of connected firm or not
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if self.is_prf_size:
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lst_firm_size = \
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[firm.size_stat[-1][0]
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for firm in lst_firm_connect]
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lst_prob = \
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[size / sum(lst_firm_size)
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for size in lst_firm_size]
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select_customer = \
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self.model.nprandom.choice(lst_firm_connect,
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p=lst_prob)
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else:
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select_customer = \
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self.model.nprandom.choice(lst_firm_connect)
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self.accept_request(select_customer, product)
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else:
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for down_firm in lst_firm:
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down_firm.dct_cand_alt_supp_up_prod_disrupted[
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product].remove(self)
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# print(
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# f"{self.name} denied {product.code} request "
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# f"from {down_firm.name} for lack of capacity"
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# )
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def accept_request(self, down_firm, product):
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# parameter product is the product that self is selling
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# connected firm has no probability for accepting request
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node_self = self.get_firm_network_node()
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node_d_firm = down_firm.get_firm_network_node()
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if self.model.firm_network.graph.has_edge(node_self, node_d_firm) or \
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self.model.firm_network.graph.has_edge(node_d_firm, node_self):
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prod_accept = 1.0
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else:
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prod_accept = self.flt_diff_new_conn
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if self.model.nprandom.choice([True, False],
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p=[prod_accept, 1 - prod_accept]):
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self.firm_network.graph.add_edges_from([
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(self.firm_network.positions[self],
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self.firm_network.positions[down_firm], {
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'Product': product.code
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})
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])
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self.dct_prod_capacity[product] -= 1
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self.dct_request_prod_from_firm[product].remove(down_firm)
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for prod in down_firm.dct_prod_up_prod_stat.keys():
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if product in down_firm.dct_prod_up_prod_stat[
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prod]['s_stat'].keys():
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down_firm.dct_prod_up_prod_stat[
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prod]['s_stat'][product]['stat'] = True
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down_firm.dct_prod_up_prod_stat[
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prod]['p_stat'].append(('N', self.model.t))
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del down_firm.dct_n_trial_up_prod_disrupted[product]
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del down_firm.dct_cand_alt_supp_up_prod_disrupted[product]
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# print(
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# f"{self.name} accept {product.code} request "
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# f"from {down_firm.name}"
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# )
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else:
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down_firm.dct_cand_alt_supp_up_prod_disrupted[product].remove(self)
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# print(
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# f"{self.name} denied {product.code} request "
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# f"from {down_firm.name}"
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# )
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def clean_before_trial(self):
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self.dct_request_prod_from_firm = {}
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def clean_before_time_step(self):
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self.dct_n_trial_up_prod_disrupted = \
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dict.fromkeys(self.dct_n_trial_up_prod_disrupted.keys(), 0)
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self.dct_cand_alt_supp_up_prod_disrupted = {}
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# update the status of firm
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for prod in self.dct_prod_up_prod_stat.keys():
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status, ts = self.dct_prod_up_prod_stat[prod]['p_stat'][-1]
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if ts != self.model.t:
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self.dct_prod_up_prod_stat[prod]['p_stat'].append(
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(status, self.model.t))
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# refresh set_disrupt_firm
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for up_prod in self.dct_prod_up_prod_stat[prod]['s_stat'].keys():
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self.dct_prod_up_prod_stat[prod][
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's_stat'][up_prod]['set_disrupt_firm'] = set()
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def get_firm_network_node(self):
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return self.firm_network.positions[self]
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def is_prod_in_current_normal(self, prod):
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if prod in self.dct_prod_up_prod_stat.keys():
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if self.dct_prod_up_prod_stat[prod]['p_stat'][-1][0] == 'N':
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return True
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else:
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return False
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else:
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return False
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