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computation.py
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computation.py
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@ -3,6 +3,7 @@ import os
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import datetime
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import datetime
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import networkx as nx
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import networkx as nx
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import pandas as pd
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from mesa import Model
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from mesa import Model
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from typing import TYPE_CHECKING
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from typing import TYPE_CHECKING
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@ -48,3 +49,222 @@ class Computation:
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print(i, datetime.datetime.now())
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print(i, datetime.datetime.now())
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model.end()
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model.end()
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return False
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return False
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def initialize_firm_network(self):
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# Read the firm data
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firm = pd.read_csv("input_data/input_firm_data/Firm_amended.csv")
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firm['Code'] = firm['Code'].astype(str)
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firm.fillna(0, inplace=True)
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firm_attr = firm.loc[:, ["Code", "Type_Region", "Revenue_Log"]]
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firm_industry_relation = pd.read_csv("input_data/firm_industry_relation.csv")
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firm_industry_relation['Firm_Code'] = firm_industry_relation['Firm_Code'].astype('string')
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firm_product = []
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grouped = firm_industry_relation.groupby('Firm_Code')['Product_Code'].apply(list)
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firm_product.append(grouped)
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firm_attr['Product_Code'] = firm_attr['Code'].map(grouped)
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firm_attr.set_index('Code', inplace=True)
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grouped = firm_industry_relation.groupby('Firm_Code')
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self.firm_prod_labels_dict = {code: group['Product_Code'].tolist() for code, group in grouped}
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# 遍历'Product_Code' 与 index 交换
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for index, row in firm_attr.iterrows():
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id_index_list = []
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for i in row['Product_Code']:
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for key_values in self.id_code.items():
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if int(key_values[0]) == i:
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for id in key_values[1]:
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id_index_list.append(id)
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firm_attr.at[index, 'Product_Code'] = id_index_list
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self.G_Firm.add_nodes_from(firm["Code"])
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# Assign attributes to the firm nodes
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firm_labels_dict = {code: firm_attr.loc[code].to_dict() for code in self.G_Firm.nodes}
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nx.set_node_attributes(self.G_Firm, firm_labels_dict)
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self.Firm = firm
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def initialize_firm_product_network(self):
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firm_industry_relation = pd.read_csv("input_data/firm_industry_relation.csv")
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firm_industry_relation['Firm_Code'] = firm_industry_relation['Firm_Code'].astype('string')
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firm_industry_relation['Product_Code'] = firm_industry_relation['Product_Code'].apply(lambda x: [x])
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# 将 'firm_prod' 表中的每一行作为图中的节点
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self.G_FirmProd.add_nodes_from(firm_industry_relation.index)
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# 为每个节点分配属性
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# 遍历'Product_Code' 与 index 交换
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for index, row in firm_industry_relation.iterrows():
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id_index_list = []
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for i in row['Product_Code']:
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for key_values in self.id_code.items():
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if int(key_values[0]) == i:
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for id in key_values[1]:
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id_index_list.append(id)
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firm_industry_relation.at[index, 'Product_Code'] = id_index_list
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firm_prod_labels_dict = {code: firm_industry_relation.loc[code].to_dict() for code in
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firm_industry_relation.index}
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nx.set_node_attributes(self.G_FirmProd, firm_prod_labels_dict)
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def add_edges_to_firm_network(self):
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""" Add edges between firms based on the product BOM relationships """
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# Add edges to G_Firm according to G_bom
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for node in nx.nodes(self.G_Firm):
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lst_pred_product_code = []
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for product_code in self.G_Firm.nodes[node]['Product_Code']:
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lst_pred_product_code += list(self.G_bom.predecessors(product_code))
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lst_pred_product_code = list(set(lst_pred_product_code))
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lst_pred_product_code = list(sorted(lst_pred_product_code)) # Ensure consistency
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for pred_product_code in lst_pred_product_code:
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# Get a list of firms producing the component (pred_product_code)
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lst_pred_firm = [firm_code for firm_code, product in self.firm_prod_labels_dict.items() if
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pred_product_code in product]
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# Select multiple suppliers (multi-sourcing)
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n_pred_firm = self.int_netw_prf_n
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if n_pred_firm > len(lst_pred_firm):
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n_pred_firm = len(lst_pred_firm)
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if self.is_prf_size:
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# 获取 firm 的 size 列表
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lst_pred_firm_size = [self.G_Firm.nodes[pred_firm]['Revenue_Log'] for pred_firm in lst_pred_firm]
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# 检查 lst_pred_firm_size 是否为空或总和为 0
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if len(lst_pred_firm_size) == 0 or sum(lst_pred_firm_size) == 0:
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# print("警告: lst_pred_firm_size 为空或总和为 0,无法生成概率分布")
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lst_choose_firm = [] # 返回空结果,或根据需要处理
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else:
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# 计算总和
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sum_pred_firm_size = sum(lst_pred_firm_size)
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# 归一化生成 lst_prob
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lst_prob = [size / sum_pred_firm_size for size in lst_pred_firm_size]
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# 使用 np.isclose() 确保概率总和接近 1
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if not np.isclose(sum(lst_prob), 1.0):
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# print(f"警告: 概率总和为 {sum(lst_prob)},现在进行修正")
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lst_prob = [prob / sum(lst_prob) for prob in lst_prob]
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# 确保没有负值或 0
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lst_prob = [max(0, prob) for prob in lst_prob]
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# 根据修正后的概率选择 firm
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lst_choose_firm = self.nprandom.choice(lst_pred_firm, n_pred_firm, replace=False, p=lst_prob)
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else:
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# 直接进行随机选择
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lst_choose_firm = self.nprandom.choice(lst_pred_firm, n_pred_firm, replace=False)
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# Add edges from predecessor firms to current node (firm)
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lst_add_edge = [(pred_firm, node, {'Product': pred_product_code}) for pred_firm in lst_choose_firm]
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self.G_Firm.add_edges_from(lst_add_edge)
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# Add edges to firm-product network
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self.add_edges_to_firm_product_network(node, pred_product_code, lst_choose_firm)
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def add_edges_to_firm_product_network(self, node, pred_product_code, lst_choose_firm):
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""" Helper function to add edges to the firm-product network """
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set_node_prod_code = set(self.G_Firm.nodes[node]['Product_Code'])
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set_pred_succ_code = set(self.G_bom.successors(pred_product_code))
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lst_use_pred_prod_code = list(set_node_prod_code & set_pred_succ_code)
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if len(lst_use_pred_prod_code) == 0:
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print("错误")
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pred_node_list = []
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for pred_firm in lst_choose_firm:
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for n, v in self.G_FirmProd.nodes(data=True):
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for v1 in v['Product_Code']:
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if v1 == pred_product_code and v['Firm_Code'] == pred_firm:
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pred_node_list.append(n)
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if len(pred_node_list) != 0:
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pred_node = pred_node_list[0]
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else:
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pred_node = -1
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current_node_list = []
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for use_pred_prod_code in lst_use_pred_prod_code:
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for n, v in self.G_FirmProd.nodes(data=True):
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for v1 in v['Product_Code']:
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if v1 == use_pred_prod_code and v['Firm_Code'] == node:
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current_node_list.append(n)
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if len(current_node_list) != 0:
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current_node = current_node_list[0]
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else:
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current_node = -1
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if current_node != -1 and pred_node != -1:
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self.G_FirmProd.add_edge(pred_node, current_node)
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def connect_unconnected_nodes(self):
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""" Connect unconnected nodes in the firm network """
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for node in nx.nodes(self.G_Firm):
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if self.G_Firm.degree(node) == 0:
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current_node_list = []
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for product_code in self.G_Firm.nodes[node]['Product_Code']:
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for n, v in self.G_FirmProd.nodes(data=True):
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for v1 in v['Product_Code']:
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if v['Firm_Code'] == node and v1 == product_code:
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current_node_list.append(n)
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if len(current_node_list) != 0:
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current_node = current_node_list[0]
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else:
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current_node = -1
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lst_succ_product_code = list(self.G_bom.successors(product_code))
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for succ_product_code in lst_succ_product_code:
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lst_succ_firm = [firm_code for firm_code, product in self.firm_prod_labels_dict.items() if
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succ_product_code in product]
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n_succ_firm = self.int_netw_prf_n
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if n_succ_firm > len(lst_succ_firm):
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n_succ_firm = len(lst_succ_firm)
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if self.is_prf_size:
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lst_succ_firm_size = [self.G_Firm.nodes[succ_firm]['Revenue_Log'] for succ_firm in
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lst_succ_firm]
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if len(lst_succ_firm_size) == 0 or sum(lst_succ_firm_size) == 0:
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# print("警告: lst_pred_firm_size 为空或总和为 0,无法生成概率分布")
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lst_choose_firm = [] # 返回空结果,或根据需要处理
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else:
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# 计算总和
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sum_pred_firm_size = sum(lst_succ_firm_size)
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# 归一化生成 lst_prob
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lst_prob = [size / sum_pred_firm_size for size in lst_succ_firm_size]
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# 使用 np.isclose() 确保概率总和接近 1
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if not np.isclose(sum(lst_prob), 1.0):
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# print(f"警告: 概率总和为 {sum(lst_prob)},现在进行修正")
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lst_prob = [prob / sum(lst_prob) for prob in lst_prob]
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# 确保没有负值或 0
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lst_prob = [max(0, prob) for prob in lst_prob]
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lst_choose_firm = self.nprandom.choice(lst_succ_firm, n_succ_firm, replace=False,
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p=lst_prob)
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else:
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lst_choose_firm = self.nprandom.choice(lst_succ_firm, n_succ_firm, replace=False)
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lst_add_edge = [(node, succ_firm, {'Product': product_code}) for succ_firm in
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lst_choose_firm]
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self.G_Firm.add_edges_from(lst_add_edge)
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# Add edges to firm-product network
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succ_node_list = []
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for succ_firm in lst_choose_firm:
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for n, v in self.G_FirmProd.nodes(data=True):
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for v1 in v['Product_Code']:
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if v1 == succ_product_code and v['Firm_Code'] == succ_firm:
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succ_node_list.append(n)
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if len(succ_node_list) != 0:
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succ_node = succ_node_list[0]
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else:
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succ_node = -1
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if current_node != -1 and succ_node != -1:
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self.G_FirmProd.add_edge(current_node, succ_node)
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self.sample.g_firm = json.dumps(nx.adjacency_data(self.G_Firm))
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self.firm_network = self.G_Firm # 直接使用 networkx 图对象
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self.firm_prod_network = self.G_FirmProd # 直接使用 networkx 图对象
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4
firm.py
4
firm.py
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@ -39,9 +39,9 @@ class FirmAgent(Agent):
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for agent in self.model.company_agents if agent.unique_id == u]
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for agent in self.model.company_agents if agent.unique_id == u]
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# 设备c的数量 (总量) 使用这个来判断设备数量
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# 设备c的数量 (总量) 使用这个来判断设备数量
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self.n_equip_c = n_equip_c
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self.n_equip_c = n_equip_c
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# 设备c产量 更具设备量进行估算
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# 设备c产量 根据设备量进行估算
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self.c_yield = production_output
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self.c_yield = production_output
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# 消耗材料量 根据设备量进行估算
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# 消耗材料量 根据设备量进行估算 { }
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self.c_consumption = demand_quantity
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self.c_consumption = demand_quantity
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# 设备c购买价格(初始值)
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# 设备c购买价格(初始值)
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# self.c_price = c_price
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# self.c_price = c_price
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Load Diff
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Load Diff
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Load Diff
82
my_model.py
82
my_model.py
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@ -236,7 +236,7 @@ class MyModel(Model):
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current_node = current_node_list[0]
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current_node = current_node_list[0]
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else:
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else:
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current_node = -1
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current_node = -1
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if current_node !=-1 and pred_node !=-1:
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if current_node != -1 and pred_node != -1:
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self.G_FirmProd.add_edge(pred_node, current_node)
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self.G_FirmProd.add_edge(pred_node, current_node)
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def connect_unconnected_nodes(self):
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def connect_unconnected_nodes(self):
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@ -298,10 +298,10 @@ class MyModel(Model):
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for v1 in v['Product_Code']:
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for v1 in v['Product_Code']:
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if v1 == succ_product_code and v['Firm_Code'] == succ_firm:
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if v1 == succ_product_code and v['Firm_Code'] == succ_firm:
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succ_node_list.append(n)
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succ_node_list.append(n)
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if len(succ_node_list)!=0:
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if len(succ_node_list) != 0:
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succ_node = succ_node_list[0]
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succ_node = succ_node_list[0]
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else:
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else:
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succ_node=-1
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succ_node = -1
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if current_node != -1 and succ_node != -1:
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if current_node != -1 and succ_node != -1:
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self.G_FirmProd.add_edge(current_node, succ_node)
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self.G_FirmProd.add_edge(current_node, succ_node)
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for ag_node, attr in self.product_network.nodes(data=True):
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for ag_node, attr in self.product_network.nodes(data=True):
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# 产业种类
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# 产业种类
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# 利用 BomNodes.csv 转换产业 和 id 前提是 一个产业一个产品id 且一一对应
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# product_id = self.type2.loc[self.type2['Code'] == ag_node, 'Code']
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type2 = self.type2[self.type2["Index"] == ag_node]["产业种类"]
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# if not product_id.empty:
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# type2 = self.type2.loc[product_id.values[0], '产业种类']
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# else:
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# # 处理 product_id 为空的情况,例如设置为默认值或跳过
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# type2 = -1 # 或其他合适的默认值
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type2 = 0
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# depreciation ratio 折旧比值
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# depreciation ratio 折旧比值
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# product_id = product_id.iloc[0]
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# product_id = product_id.iloc[0]
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product = ProductAgent(ag_node, self, name=attr['Name'], type2=type2)
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j_comp_data_consumed = self.data_consumed[ag_node]
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j_comp_data_produced = self.data_produced[ag_node]
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product = ProductAgent(ag_node, self, name=attr['Name'], type2=type2,
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j_comp_data_consumed=j_comp_data_consumed,
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j_comp_data_produced=j_comp_data_produced,
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)
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self.add_agent(product)
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self.add_agent(product)
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# self.grid.place_agent(product, ag_node)
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# self.grid.place_agent(product, ag_node)
|
||||||
##print(f"Product agent created: {product.name}, ID: {product.unique_id}")
|
##print(f"Product agent created: {product.name}, ID: {product.unique_id}")
|
||||||
|
@ -343,9 +329,9 @@ class MyModel(Model):
|
||||||
firm_id = self.Firm['Code'] == ag_node
|
firm_id = self.Firm['Code'] == ag_node
|
||||||
n_equip_c = self.Firm.loc[firm_id, '设备数量'].values[0]
|
n_equip_c = self.Firm.loc[firm_id, '设备数量'].values[0]
|
||||||
|
|
||||||
demand_quantity = self.Firm.loc[firm_id, 'production_output'].values[0]
|
demand_quantity = self.data_consumed[self.data_consumed['Firm_Code'] == ag_node]
|
||||||
|
|
||||||
production_output = self.Firm.loc[firm_id, 'demand_quantity'].values[0]
|
production_output = self.data_produced[self.data_consumed['Firm_Code'] == ag_node]
|
||||||
|
|
||||||
# c购买价格? 数据预处理
|
# c购买价格? 数据预处理
|
||||||
# c_price = self.Firm.loc[self.Firm['Code'] == ag_node, 'c_price'].values[0]
|
# c_price = self.Firm.loc[self.Firm['Code'] == ag_node, 'c_price'].values[0]
|
||||||
|
@ -432,16 +418,22 @@ class MyModel(Model):
|
||||||
self.firm_resource_P = firm_resource_P
|
self.firm_resource_P = firm_resource_P
|
||||||
|
|
||||||
def j_comp_consumed_produced(self):
|
def j_comp_consumed_produced(self):
|
||||||
data_consumed = pd.read_csv('input_data/input_product_data/products_consumed_materials.csv')
|
# 着重修改这 然后考虑逻辑 如何传递值
|
||||||
data_produced = pd.read_csv('input_data/input_product_data/products_produced_products.csv')
|
data_consumed = pd.read_csv('input_data/input_firm_data/firms_materials.csv')
|
||||||
|
data_produced = pd.read_csv('input_data/input_firm_data/firms_products.csv')
|
||||||
|
|
||||||
data_consumed = (data_consumed.groupby('产业id')['消耗材料id']
|
data_not_consumed = data_consumed.groupby('Firm_Code')[['消耗材料id', '材料数量']] \
|
||||||
.apply(lambda x: x.values.tolist()))
|
.apply(lambda x: dict(zip(x['消耗材料id'], x['材料数量']))) \
|
||||||
data_produced = (data_produced.groupby('产业id')['制造产品id']
|
.reset_index(name='Material_not_Consumed')
|
||||||
.apply(lambda x: x.values.tolist()))
|
|
||||||
|
# 这里简单设置为折半 考虑 企业的设备量
|
||||||
|
# 可以引入 换算率 也就是 材料——计算产品比例 通过上游产业 现在假设为 2:1 的比例
|
||||||
|
data_consumed = data_consumed.groupby('Firm_Code')[['消耗材料id', '材料数量']] \
|
||||||
|
.apply(lambda x: dict(zip(x['消耗材料id'], x['材料数量'] / 2))) \
|
||||||
|
.reset_index(name='Material_not_Consumed')
|
||||||
|
|
||||||
self.data_consumed = data_consumed
|
self.data_consumed = data_consumed
|
||||||
self.data_produced = data_produced
|
self.data_produced = data_consumed / 2
|
||||||
|
|
||||||
def step(self):
|
def step(self):
|
||||||
# 1. Remove edge to customer and disrupt customer up product
|
# 1. Remove edge to customer and disrupt customer up product
|
||||||
|
@ -542,38 +534,24 @@ class MyModel(Model):
|
||||||
for C_list, C0_list in zip(firm.C, firm.C0):
|
for C_list, C0_list in zip(firm.C, firm.C0):
|
||||||
C_list[1] = C0_list[1] # 赋值回去
|
C_list[1] = C0_list[1] # 赋值回去
|
||||||
C_list[2] = C0_list[2]
|
C_list[2] = C0_list[2]
|
||||||
|
|
||||||
# 消耗资源过程
|
# 消耗资源过程
|
||||||
consumed_material = []
|
# 这里需要修改
|
||||||
for product in firm.indus_i:
|
for r_id, r_nums in firm.R.items():
|
||||||
for consumed_material_id in product.j_comp_data_consumed:
|
for consumed_id, consumed_nums in firm.c_consumption:
|
||||||
consumed_material_num = 0.1
|
if consumed_id == r_id:
|
||||||
|
r_nums = r_nums - consumed_nums
|
||||||
|
|
||||||
consumed_material.append([consumed_material_id, consumed_material_num])
|
|
||||||
|
|
||||||
for sub_list_consumed_material in consumed_material:
|
|
||||||
for sub_list_material in firm.R:
|
|
||||||
if sub_list_material[0] == sub_list_consumed_material[0]:
|
|
||||||
sub_list_material[1] = sub_list_material[1] - sub_list_consumed_material[1]
|
|
||||||
# 生产产品过程
|
# 生产产品过程
|
||||||
produced_products = []
|
for p_id, p_nums in firm.P.items():
|
||||||
for product in firm.indus_i:
|
for product_id, product_nums in firm.c_consumption:
|
||||||
for produced_products_id in product.j_comp_data_consumed:
|
if product_id == p_id:
|
||||||
produced_products_num = 0.1
|
p_nums = p_nums + product_nums
|
||||||
|
|
||||||
produced_products.append([produced_products_id, produced_products_num])
|
|
||||||
|
|
||||||
for sub_list_data_produced_products in produced_products:
|
|
||||||
for sub_list_products in firm.P:
|
|
||||||
if sub_list_products[0] == sub_list_data_produced_products[0]:
|
|
||||||
sub_list_products[1] = sub_list_products[1] - sub_list_data_produced_products[1]
|
|
||||||
# 刷新 R状态
|
|
||||||
firm.refresh_R()
|
firm.refresh_R()
|
||||||
# 刷新 C状态
|
# 刷新 C状态
|
||||||
firm.refresh_C()
|
firm.refresh_C()
|
||||||
# 刷新 P状态
|
# 刷新 P状态
|
||||||
firm.refresh_P()
|
firm.refresh_P()
|
||||||
|
|
||||||
# Increment the time step
|
# Increment the time step
|
||||||
self.t += 1
|
self.t += 1
|
||||||
|
|
||||||
|
|
|
@ -2,7 +2,7 @@ from mesa import Agent
|
||||||
|
|
||||||
|
|
||||||
class ProductAgent(Agent):
|
class ProductAgent(Agent):
|
||||||
def __init__(self, unique_id, model, name, type2, j_comp_data_consumed, j_comp_data_produced):
|
def __init__(self, unique_id, model, name, type2):
|
||||||
# 调用超类的 __init__ 方法
|
# 调用超类的 __init__ 方法
|
||||||
super().__init__(unique_id, model)
|
super().__init__(unique_id, model)
|
||||||
|
|
||||||
|
@ -16,9 +16,6 @@ class ProductAgent(Agent):
|
||||||
# depreciation ratio 折旧比值
|
# depreciation ratio 折旧比值
|
||||||
# self.depreciation ratio
|
# self.depreciation ratio
|
||||||
|
|
||||||
self.j_comp_data_produced = j_comp_data_produced
|
|
||||||
self.j_comp_data_consumed = j_comp_data_consumed
|
|
||||||
|
|
||||||
def a_successors(self):
|
def a_successors(self):
|
||||||
# 从 product_network 中找到当前代理的后继节点
|
# 从 product_network 中找到当前代理的后继节点
|
||||||
successors = list(self.model.product_network.successors(self.unique_id))
|
successors = list(self.model.product_network.successors(self.unique_id))
|
||||||
|
|
Loading…
Reference in New Issue