def __init__(self): super().__init__() self.queue_flow = mm.get_queue(cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_derivate = Mongo(**cm.config['mongo_jd_cl']) self.rule_config_list = self.get_rule_list() self.group_tag_config_list = self.get_group_tag_list()
def __init__(self): super(JDXMLWithdrawModelServer, self).__init__() self.queue_flow = message_manager.get_queue( cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_der = Mongo(**cm.config['mongo_jd_cl']) self.model_config_list = self.get_model_list() self.group_tag_threshold = self.get_group_tag_threshold()
def __init__(self): super(JDXMLCreditServer, self).__init__() self.queue_flow = message_manager.get_queue( cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_der = Mongo(**cm.config['mongo_jd_cl']) self.model_config_list = self.get_model_list() self.target = 'jd'
def __init__(self): super(JDXModifyQuota, self).__init__() self.queue_flow = message_manager.get_queue( cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_derivable = Mongo(**cm.config['mongo_jd_cl']) self.quota_modify_strategy_list = self.get_quota_modify_strategy_list( ) # 获取全部额度变更策略配置
def fetch_data_from_db(start_time, end_time): db = Mongo(**cm.config['mongo_config']) Collection = db.get_collection(cm.config['collection']) start_time = pd.to_datetime(start_time) end_time = pd.to_datetime(end_time) df = pd.DataFrame( list( Collection.find( {'create_time': { '$gte': start_time, '$lt': end_time }}, {'X_SZR_EntryDate': 0}))) bad_cols = [] for col in df.columns: if 'X_JD_ActiveCard' in col: bad_cols.append(col) df = df.drop(bad_cols, axis=1) df.loc[:, '_id'] = df['_id'].str.lower() df = df.set_index('_id', drop=False) return df
def __init__(self): # db client self.mysql_mlx_client = MySql(**cm.config['mysql_jd_cl']) self.mongo_mlx_client = Mongo(**cm.config['mongo_jd_cl']) # db access self.ml_result_access = jdx_data.MachineLearningJdResults( client=self.mysql_mlx_client) self.original_data_access = jdx_data.DerivativeProdData( client=self.mongo_mlx_client) self.threshold_access = jdx_data.PrThreshold( client=self.mysql_mlx_client)
def __init__(self, strategy, *args, **argw): self.name = strategy.get('name') self.model_path = strategy.get('model_path') self.match = strategy.get('match') self.params = strategy.get('params') self.output = strategy.get('output') self.prob = strategy.get('prob') self.is_setup = strategy.get('is_setup') self.priority = strategy.get('priority') self.mysql_mlx_client = MySql(**cm.config['mysql_jd_cl']) self.mongo_mlx_client = Mongo(**cm.config['mongo_jd_cl']) self.original_data_access = jdx_data.DerivativeProdData( client=self.mongo_mlx_client) self.strategy_result_access = jdx_data.CreditAmountStragetyResult( client=self.mysql_mlx_client) self._trans_params()
class JDXMLWithdrawModelServer(message_server.MessageServer): def __init__(self): super(JDXMLWithdrawModelServer, self).__init__() self.queue_flow = message_manager.get_queue( cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_der = Mongo(**cm.config['mongo_jd_cl']) self.model_config_list = self.get_model_list() self.group_tag_threshold = self.get_group_tag_threshold() def handle_msg(self, msg_dict): if 'app_id' not in msg_dict: logging.warning('No key in msg called appId!') app_id = str(msg_dict['app_id']).lower() user_id = msg_dict['user_id'] category_id = msg_dict['category_id'] group_tag = msg_dict['group_tag'] model = self.choose_model(category_id, 'jd') feature_data = self.get_der_data(app_id) creditLine = float(feature_data.get( 'X_JD_CreditLine')) if feature_data.get('X_JD_CreditLine') else -1 principal = float(feature_data.get( 'X_JD_Principal')) if feature_data.get('X_JD_Principal') else -1 # 是否是预审核 is_preAudit = 1 if feature_data.get( 'X_WorkFlow') == 'buyApplicationPreAudit' or feature_data.get( 'X_isPreAudit') == 'preAudit' else 0 model_score = self.run_model(model, feature_data) op_score = self.get_op_score(model_score, model['op_coef'], model['op_intercept']) model_pass = 0 if model_score < model['threshold'] else 1 # 根据op_score判别控制组 if group_tag == 'B' and model_pass == 0 and op_score >= self.group_tag_threshold: model_pass = 1 self.save_model_result(app_id, user_id, category_id, creditLine, principal, model_score, model['threshold'], model['model_name'], is_preAudit) self.save_op_socre_result(app_id, user_id, 'jd', 'withdraw', category_id, model['model_name'], model_score, op_score) msg = { "app_id": app_id, "job_name": msg_dict['job_name'], "model_pass": model_pass, "op_score": op_score } self.queue_flow.send_message(msg) def choose_model(self, category_id, target): models = [] for model in self.model_config_list: if model['category_id'] == category_id and model[ 'target'] == target: models.append(model) rand = np.random.random() model_prod = 0 for model in models: model_prod += model['prob'] if rand < model_prod: return model return None def get_model_list(self, table='jdx_category_model_relations'): sql = """select category_id,model_name,target,estor_path,threshold,op_coef,op_intercept,prob from {} where is_setup=1;""".format( table) model_list = self.mysql_ml.query(sql) return model_list def get_group_tag_threshold(self, table='jdx_proba_tags'): sql = """select threshold from {} where flow_type='w' and is_setup=1;""".format( table) group_tag_threshold = self.mysql_ml.query_one(sql) return float( group_tag_threshold['threshold']) if group_tag_threshold else None def run_model(self, chosed_model, feature_data): """跑模型,获得模型分数""" model_path = chosed_model['estor_path'] with open(model_path, 'rb') as f: pk_obj = pickle.load(f) model = pk_obj['model'] agg_attr = [] fields = model.get_params()['enum'].clean_col_names for attr in fields: agg_attr.append(feature_data.get(attr)) # use pandas to format data, the dimension should be 1 x len(fields) result_df = pd.DataFrame(agg_attr, index=fields).T assert result_df.ndim == 2, 'result_df should be two dimension' # transform data and make prediction pred_probas = model.predict_proba(result_df) model_score = pred_probas[:, 1][0] return float(model_score) def get_der_data(self, app_id, collection='derivables'): """获取特征数据""" result = {} try: result = self.mongo_der.get_collection(collection).find({ '_id': app_id.upper() }).next() result = {key: value for key, value in result.items()} except Exception: pass return result def get_op_score(self, model_score, op_coef, op_intercept): if not (op_coef and op_intercept): return 0 model_ln_odds = math.log(model_score / (1 - model_score)) / math.log(2) ln_real_odds = op_coef * model_ln_odds + op_intercept op_score = max(min(60 * ln_real_odds + 300, 1000), 0) return op_score def save_model_result(self, app_id, user_id, category_id, creditLine, principal, result, threshold, model_name, is_preAudit, table='jdx_withdraw_model_results'): sql = "insert into {} " \ "(app_id, user_id, category_id, creditLine, principal, result, threshold, model, is_preAudit) values " \ "('{}', '{}', '{}', {}, {}, {}, {}, '{}',{})".format(table, app_id, user_id, category_id, creditLine, principal, result, threshold, model_name, is_preAudit) return self.mysql_ml.update(sql) == 1 def save_op_socre_result(self, app_id, user_id, target, server, category_id, model, model_score, op_score, table='jdx_op_score_results'): sql = "insert into {} " \ "(app_id, user_id, target, server, category_id, model, model_score, op_score) " \ "values ('{}', '{}', '{}', '{}', '{}', '{}', {}, {})".format(table, app_id, user_id, target, server, category_id, model, model_score, op_score) return self.mysql_ml.update(sql) == 1
def __init__(self): super().__init__() self.queue_flow = mm.get_queue(cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_derivate = Mongo(**cm.config['mongo_jd_cl']) self.category_list = self.get_category_configs()
class JdxCategoryService(message_server.MessageServer): def __init__(self): super().__init__() self.queue_flow = mm.get_queue(cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_derivate = Mongo(**cm.config['mongo_jd_cl']) self.category_list = self.get_category_configs() def handle_msg(self, msg_dict): app_id = msg_dict['app_id'] user_id = msg_dict['user_id'] derivate_data = self.get_derivate_data(app_id) channel = derivate_data.get('X_Origin_source') workflow, flow_type = self.get_workflow(derivate_data) category_id = self.get_category_id(derivate_data, workflow) msg_out = { "app_id": app_id, "job_name": msg_dict['job_name'], "category_id": category_id, } self.queue_flow.send_message(msg_out) self.save_category_results(app_id, user_id, category_id, channel, flow_type) def get_category_configs(self, table='jdx_category_relations'): sql = """SELECT category_id,relation from {} WHERE is_setup=1;""".format( table) category_list = self.mysql_ml.query(sql) return category_list def get_derivate_data(self, app_id, collection='derivables'): der_dict = self.mongo_derivate.get_collection(collection).find_one( {'_id': app_id.upper()}) return der_dict def save_category_results(self, app_id, user_id, category_id, channel, flow_type, table='jdx_category_results'): sql = """INSERT INTO {} (app_id,user_id,category_id,channel,flow_type) VALUES('{}','{}','{}','{}','{}');""".format( table, app_id, user_id, category_id, channel, flow_type) self.mysql_ml.update(sql) def get_category_id(self, derivate_data, workflow): aeval = Interpreter() category_id = None default_category_id = None for category in self.category_list: if category['relation'] == workflow + '_default': default_category_id = category['category_id'] try: relation_dict = json.loads(category['relation']) flag = [] for k, v in relation_dict.items(): aeval.symtable['VALUE'] = derivate_data.get(k) flag.append(aeval(v)) if all(flag): category_id = category['category_id'] break except: pass if not category_id: category_id = default_category_id return category_id def get_workflow(self, derivate_data): x_workflow = derivate_data['X_WorkFlow_flag'] mx_data = derivate_data.get('X_MX_RawReport') if x_workflow == 'card': workflow = 'opencard' flow_type = 'c' elif x_workflow == 'reloan' and mx_data: workflow = 'reloanwithdraw_mx' flow_type = 'w' elif x_workflow == 'reloan' and not mx_data: workflow = 'reloanwithdraw' flow_type = 'w' elif x_workflow == 'quota': workflow = 'quota' flow_type = 'q' elif x_workflow == 'firstloan': workflow = 'firstwithdraw' flow_type = 'f' return workflow, flow_type
class JDXMLCreditServer(message_server.MessageServer): def __init__(self): super(JDXMLCreditServer, self).__init__() self.queue_flow = message_manager.get_queue( cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_der = Mongo(**cm.config['mongo_jd_cl']) self.model_config_list = self.get_model_list() self.target = 'jd' def handle_msg(self, msg_dict): if 'app_id' not in msg_dict: logging.warning('No key in msg called appId!') app_id = str(msg_dict['app_id']).lower() user_id = msg_dict['user_id'] category_id = msg_dict['category_id'] model = self.choose_model(category_id, self.target) model_score = self.run_model(app_id, model) op_score = self.get_op_score(model_score, model['op_coef'], model['op_intercept']) self.save_model_result(app_id, user_id, -1, -1, {500: model_score}, '', 1, -1, model['model_name'], category_id) self.save_op_socre_result(app_id, user_id, self.target, 'open_card', category_id, model['model_name'], model_score, op_score) msg = { "app_id": app_id, "job_name": msg_dict['job_name'], "model_name": model['model_name'], "op_score": op_score, "model_score": model_score } self.queue_flow.send_message(msg) def choose_model(self, category_id, target): models = [] for model in self.model_config_list: if model['category_id'] == category_id and model[ 'target'] == target: models.append(model) rand = np.random.random() model_prod = 0 for model in models: model_prod += model['prob'] if rand < model_prod: return model return None def get_model_list(self, table='jdx_category_model_relations'): sql = """select category_id,model_name,target,estor_path,op_coef,op_intercept,prob from {} where is_setup=1;""".format( table) model_list = self.mysql_ml.query(sql) return model_list def run_model(self, app_id, chosed_model): """跑模型,获得模型分数""" model_path = chosed_model['estor_path'] feature_data = self.get_der_data(app_id) with open(model_path, 'rb') as f: pk_obj = pickle.load(f) model = pk_obj['model'] agg_attr = [] fields = model.get_params()['enum'].clean_col_names for attr in fields: agg_attr.append(feature_data.get(attr)) # use pandas to format data, the dimension should be 1 x len(fields) result_df = pd.DataFrame(agg_attr, index=fields).T assert result_df.ndim == 2, 'result_df should be two dimension' # transform data and make prediction pred_probas = model.predict_proba(result_df) model_score = pred_probas[:, 1][0] return float(model_score) def get_der_data(self, app_id, collection='derivables'): """获取特征数据""" result = {} try: result = self.mongo_der.get_collection(collection).find({ '_id': app_id.upper() }).next() result = {key: value for key, value in result.items()} except Exception: pass return result def get_op_score(self, model_score, op_coef, op_intercept): if not (op_coef and op_intercept): return 0 model_ln_odds = math.log(model_score / (1 - model_score)) / math.log(2) ln_real_odds = op_coef * model_ln_odds + op_intercept op_score = max(min(60 * ln_real_odds + 300, 1000), 0) return op_score def save_model_result(self, app_id, user_id, credit_ml, credit_final, result, threshold, judge_by, credit_by, model_name, category_id, table='machine_learning_jdcl_results'): sql = "insert into {} " \ "(app_id, user_id, credit_ml, credit_final, result, threshold, judge_by, credit_by, model, category_id) " \ "values ('{}', '{}', {}, {}, '{}', '{}', {}, {}, '{}', '{}')".format(table, app_id, user_id, credit_ml, credit_final, json.dumps(result), threshold, judge_by, credit_by, model_name, category_id) return self.mysql_ml.update(sql) == 1 def save_op_socre_result(self, app_id, user_id, target, server, category_id, model, model_score, op_score, table='jdx_op_score_results'): sql = "insert into {} " \ "(app_id, user_id, target, server, category_id, model, model_score, op_score) " \ "values ('{}', '{}', '{}', '{}', '{}', '{}', {}, {})".format(table, app_id, user_id, target, server, category_id, model, model_score, op_score) return self.mysql_ml.update(sql) == 1
class JDXModifyQuota(message_server.MessageServer): def __init__(self): super(JDXModifyQuota, self).__init__() self.queue_flow = message_manager.get_queue( cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_derivable = Mongo(**cm.config['mongo_jd_cl']) self.quota_modify_strategy_list = self.get_quota_modify_strategy_list( ) # 获取全部额度变更策略配置 def handle_msg(self, msg_dict): app_id = msg_dict['app_id'] category_id = msg_dict['category_id'] model_score = msg_dict['model_score'] # 预测的模型分 model_name = msg_dict['model_name'] # 预测的模型名 data = self.get_user_data_by_app_id(app_id) user_id = data.get('X_UserId') try: original_quota = int(float(data.get('X_JD_CreditLine'))) # 用户当前额度 original_principal = int(float( data.get('X_pre_app_principal'))) # 用户最后一次的提现金额 quota_modify_count = int( data.get('X_credit_adjustment_times')) # 提额次数 # 根据模型分和当前额度选择一个额度变更策略 quota_modify_strategy = self.get_quota_modify_strategy( category_id, model_score, original_quota) # 根据额度变更策略确定额度的变化标签 modify_tag = self.get_modify_tag(quota_modify_strategy) # 最终额度 if modify_tag >= 0: final_quota = round(original_quota + original_principal * modify_tag) else: final_quota = round(original_quota * (1 + modify_tag)) # 用户年龄小于22时,额度打折 try: if int(data['X_IdCardAge']) < 22: final_quota = round(final_quota * 0.5) except: pass # 额度变化值 quota_variance = final_quota - original_quota logging.info("app_id:{}, final_credit:{}".format( app_id, final_quota)) self.queue_flow.send_message({ "app_id": app_id, "job_name": msg_dict['job_name'], "final_quota": str(final_quota) }) # 保存额度变更结果 self.save_quota_modify_results( app_id, user_id, category_id, quota_modify_strategy['modify_name'], model_score, model_name, original_quota, original_principal, quota_modify_strategy['score_segment'], quota_modify_strategy['quota_segment'], quota_modify_strategy['level'], quota_variance, final_quota, quota_modify_count) except: logging.warning(traceback.format_exc()) final_quota = int(float(data.get('X_JD_CreditLine'))) quota_variance = 0 logging.info("app_id:{}, final_credit:{}".format( app_id, final_quota)) self.queue_flow.send_message({ "app_id": app_id, "job_name": msg_dict['job_name'], "final_quota": str(final_quota) }) # 保存额度变更结果 self.save_quota_modify_results( app_id, user_id, category_id, '', model_score, model_name, data.get('X_JD_CreditLine'), -1, '', '', 0, quota_variance, final_quota, data.get('X_credit_adjustment_times')) def get_quota_modify_strategy(self, category_id, model_score, original_quota): for quota_modify_strategy in self.quota_modify_strategy_list: score_segment = json.loads(quota_modify_strategy['score_segment']) quota_segment = json.loads(quota_modify_strategy['quota_segment']) score_in = model_score in Interval(score_segment[0], score_segment[1], upper_closed=False) quota_in = original_quota in Interval(quota_segment[0], quota_segment[1], upper_closed=False) if quota_modify_strategy[ 'category_id'] == category_id and score_in and quota_in: return quota_modify_strategy def get_modify_tag(self, quota_modify_strategy): action_space = json.loads(quota_modify_strategy['action_space']) action_prob = json.loads(quota_modify_strategy['action_prob']) rand = np.random.random() modify_prob = 0 for i, prob in enumerate(action_prob): modify_prob += prob if rand < modify_prob: modify_tag = action_space[i] return modify_tag def save_quota_modify_results(self, app_id, user_id, category_id, modify_name, model_score, model_name, original_quota, original_principal, score_segment, quota_segment, level, quota_variance, final_quota, quota_modify_count, table='jdx_quota_modify_results'): sql = "insert into {} (app_id,user_id,category_id,modify_name,model_score,model_name,original_quota," \ "original_principal,score_segment,quota_segment,level,quota_variance,final_quota,quota_modify_count) " \ "values ('{}', '{}', '{}', '{}', {}, '{}',{},{}, '{}','{}',{},{},{},{})". \ format(table, app_id, user_id, category_id, modify_name, model_score, model_name, original_quota, original_principal,score_segment, quota_segment,level,quota_variance, final_quota, quota_modify_count) self.mysql_ml.update(sql) def get_quota_modify_strategy_list(self, table='jdx_quota_modify_configs'): sql = "select modify_name,category_id,score_segment,quota_segment,level,action_space,action_prob " \ "from {} where is_setup=1;" \ .format(table) quota_modify_strategy_list = self.mysql_ml.query(sql) return quota_modify_strategy_list def get_user_data_by_app_id(self, app_id, collection='derivables'): key_lists = [ 'X_UserId', 'X_JD_CreditLine', 'X_pre_app_principal', 'X_credit_adjustment_times', 'X_IdCardAge' ] fields = {x: 1 for x in key_lists} data = self.mongo_derivable.get_collection(collection).find_one( {'_id': app_id.upper()}, fields) return data
class JDXMLQuotaServer(message_server.MessageServer): def __init__(self): super(JDXMLQuotaServer, self).__init__() self.queue_flow = message_manager.get_queue( cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_derivable = Mongo(**cm.config['mongo_jd_cl']) self.model_config_list = self.get_model_list() self.target = 'jd' def handle_msg(self, msg_dict): if 'app_id' not in msg_dict: logging.warning('No key in msg called appId!') app_id = str(msg_dict['app_id']).lower() category_id = msg_dict['category_id'] model = self.choose_model(category_id, self.target) model_score = self.run_model(app_id, model) msg = { "app_id": app_id, "job_name": msg_dict['job_name'], "model_name": model['model_name'], "model_score": model_score } self.queue_flow.send_message(msg) def choose_model(self, category_id, target): models = [] for model in self.model_config_list: if model['category_id'] == category_id and model[ 'target'] == target: models.append(model) rand = np.random.random() model_prod = 0 for model in models: model_prod += model['prob'] if rand < model_prod: return model return None def get_model_list(self, table='jdx_category_model_relations'): sql = """select category_id,model_name,target,estor_path,op_coef,op_intercept,prob from {} where is_setup=1;""".format( table) model_list = self.mysql_ml.query(sql) return model_list def run_model(self, app_id, chosed_model): """跑模型,获得模型分数""" model_path = chosed_model['estor_path'] feature_data = self.get_der_data(app_id) with open(model_path, 'rb') as f: pk_obj = pickle.load(f) model = pk_obj['model'] agg_attr = [] fields = model.get_params()['enum'].clean_col_names for attr in fields: agg_attr.append(feature_data.get(attr)) # use pandas to format data, the dimension should be 1 x len(fields) result_df = pd.DataFrame(agg_attr, index=fields).T assert result_df.ndim == 2, 'result_df should be two dimension' # transform data and make prediction pred_probas = model.predict_proba(result_df) model_score = pred_probas[:, 1][0] return float(model_score) def get_der_data(self, app_id, collection='derivables'): """获取特征数据""" result = {} try: result = self.mongo_derivable.get_collection(collection).find({ '_id': app_id.upper() }).next() result = {key: value for key, value in result.items()} except Exception: pass return result
class JdxRuler(MessageServer): def __init__(self): super().__init__() self.queue_flow = mm.get_queue(cm.config['queue_flow']['name']) self.mysql_ml = MySql(**cm.config['mysql_jd_cl']) self.mongo_derivate = Mongo(**cm.config['mongo_jd_cl']) self.rule_config_list = self.get_rule_list() self.group_tag_config_list = self.get_group_tag_list() def handle_msg(self, msg_dict): app_id = str(msg_dict['app_id']) user_id = msg_dict.get('user_id', '') category_id = msg_dict.get('category_id', '') der_data = self.get_der_data(app_id) group_tag, flow_type = self.get_group_tag_and_flow_type(der_data) # 控制组标签 rule_check_result = self.get_rule_check_result(category_id, flow_type, group_tag, der_data) hit_rule_str = "!".join(rule_check_result['hit_rule_code']) msg = { "app_id": app_id, "job_name": msg_dict['job_name'], "group_tag": group_tag, "rule_pass": rule_check_result['result'], "hit_rule_str": hit_rule_str } self.queue_flow.send_message(msg) saved_data = { 'app_id': app_id, 'user_id': user_id, 'category_id': category_id, 'hit_rule_code': rule_check_result['hit_rule_code'], 'actual_hit_rule_code': rule_check_result['actual_hit_rule_code'], 'result': rule_check_result['result'], 'actual_result': rule_check_result['actual_result'], 'group_tag': group_tag, 'flow_type': flow_type } self.save_rule_result(saved_data) def get_rule_list(self, table='jd_ml_rules'): """获取所有规则配置信息""" sql = """select category_id,rule_code,pass_prob,rule_params,flow_type,group_tag from {} where is_setup=1;""".format( table) rule_list = self.mysql_ml.query(sql) return rule_list def get_der_data(self, app_id, collection='derivables'): """获取特征数据""" result = {} try: result = self.mongo_derivate.get_collection(collection).find({'_id': app_id.upper()}).next() result = {key: value for key, value in result.items()} except Exception: pass return result def save_rule_result(self, saved_data, table='jd_ml_rule_check_result'): """保存规则检查结果""" app_id = saved_data.get('app_id') user_id = saved_data.get('user_id', '') category_id = saved_data.get('category_id') hit_rule_code = json.dumps(saved_data.get('hit_rule_code')) actual_hit_rule_code = json.dumps(saved_data.get('actual_hit_rule_code')) result = saved_data.get('result') actual_result = saved_data.get('actual_result') group_tag = saved_data.get('group_tag') flow_type = saved_data.get('flow_type') sql = "insert into {} (app_id,user_id,category_id,hit_rule_code,actual_hit_rule_code,result,actual_result," \ "group_tag,rule_type) values ('{}','{}','{}','{}','{}',{},{},'{}','{}')".format(table, app_id, user_id, category_id, hit_rule_code, actual_hit_rule_code, result, actual_result, group_tag, flow_type) self.mysql_ml.update(sql) def get_rule_check_result(self, category_id, flow_type, group_tag, der_data): """得到规则检测结果""" if category_id not in [rule['category_id'] for rule in self.rule_config_list]: if flow_type == 'c': category_id = 'default_opencard' elif flow_type == 'f': category_id = 'default_firstloan' elif flow_type == 'w': category_id = 'default_reloan' rule_list = [] for rule_config in self.rule_config_list: if rule_config['category_id'] == category_id and rule_config['flow_type'] == flow_type and rule_config[ 'group_tag'] == group_tag: rule_list.append(rule_config) hit_rule_code = [] actual_hit_rule_code = [] for rule in rule_list: rule_code = rule['rule_code'] pass_prob = int(rule['pass_prob']) rule_params = rule['rule_params'] rule_params = json.loads(rule_params) check_list = [] for rule_dict in rule_params['con']: try: f_value = der_data.get(rule_dict['field']) s_value = rule_dict.get('val') op = rule_dict.get('op') flag = self.__condition_exec(f_value, s_value, op) except: flag = False check_list.append(flag) check_result = False if rule_params['log_op'] == 'and': check_result = all(check_list) if rule_params['log_op'] == 'or': check_result = any(check_list) if check_result: hit_rule_code.append(rule_code) actual_hit_rule_code.append(rule_code) prob = np.random.random() if prob < pass_prob: hit_rule_code.remove(rule_code) result = 0 if hit_rule_code else 1 actual_result = 0 if actual_hit_rule_code else 1 rule_check_result = { 'hit_rule_code': hit_rule_code, 'actual_hit_rule_code': actual_hit_rule_code, 'result': result, 'actual_result': actual_result, } return rule_check_result def get_group_tag_list(self, table='jdx_proba_tags'): """获取控制组""" sql = """select tag,proba,flow_type from {} where is_setup=1;""".format(table) group_tag_list = self.mysql_ml.query(sql) return group_tag_list def get_group_tag_and_flow_type(self,der_data): X_WorkFlow_flag = der_data.get('X_WorkFlow_flag') if X_WorkFlow_flag == 'card': flow_type = 'c' elif X_WorkFlow_flag == 'firstloan': flow_type = 'f' elif X_WorkFlow_flag == 'reloan': flow_type = 'w' for tag_dict in self.group_tag_config_list: if tag_dict['flow_type'] == flow_type: tag_config = tag_dict prob = np.random.random() # B表示为控制组 if prob < float(tag_config['proba']): group_tag = 'B' else: group_tag = 'A' return group_tag, flow_type def __condition_exec(self, f_value, s_value, op): result = False if op == '==': result = f_value == s_value elif op == '>': result = float(f_value) > float(s_value) elif op == '>=': result = float(f_value) >= float(s_value) elif op == '<': result = float(f_value) < float(s_value) elif op == '<=': result = float(f_value) <= float(s_value) elif op == '!=': result = f_value != s_value elif op == 'in': result = f_value in s_value elif op == 'nin': result = f_value not in s_value return result