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🤖 每日自动备份 - 2026-05-10 08:00:01

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当权限列表以外的用户提出数据查询需求时:
1. **不直接返回数据**
2. 立即通知业务负责人(通过飞书消息),说明查询用户信息和具体查询需求
3. 等待业务负责人确认允许查看的数据范围后,再回复查询用户
2. 立即通知第一业务负责人李承龙(通过飞书消息),说明查询用户信息和具体查询需求
3. 等待第一业务负责人确认允许查看的数据范围后,再回复查询用户
## 敏感操作审批规则

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# Session: 2026-05-09 12:42:10 GMT+8
- **Session Key**: agent:main:feishu:direct:ou_7ef247331804edf255f53e3be15963f4
- **Session ID**: 3062353d-9b0e-460f-b59a-aae38c6d827b
- **Source**: feishu

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# Session: 2026-05-09 14:29:58 GMT+8
- **Session Key**: agent:main:feishu:direct:ou_7ef247331804edf255f53e3be15963f4
- **Session ID**: 3062353d-9b0e-460f-b59a-aae38c6d827b
- **Source**: feishu
## Conversation Summary
user: [media attached: /root/.openclaw/media/inbound/4æ_è_çº_çº_ç---7e216255-8c0a-485e-a954-bb264612a53c.xlsx (application/vnd.openxmlformats-officedocument.spreadsheetml.sheet) | /root/.openclaw/media/inbound/4æ_è_çº_çº_ç---7e216255-8c0a-485e-a954-bb264612a53c.xlsx]
[File: /root/.openclaw/media/inbound/4æ_è_çº_çº_ç---7e216255-8c0a-485e-a954-bb264612a53c.xlsx]
assistant: 王虹茗你好,收到了你发来的 Excel 文件。文件包含两个 Sheet
- **Sheet1**659 行用户ID、线索进线日期、销售 三列数据
- **Sheet3**889 行):目前为空
请问你需要我基于这份数据帮你做什么分析呢?比如:
- 查询这些用户的订单数据、学习数据?
- 按销售/日期维度做统计?
- 其他处理?
请告诉我具体需求,我来帮你处理。
user: 只看sheet1就可以了包含
- 用户ID线索用户 ID
- 线索进线日期2026年3月1日 ~ 3月31日
- 销售姜小龙、Bob、Tom 三位销售
assistant: 明白了Sheet1 包含 659 条线索记录是姜小龙、Bob、Tom 三位销售在 2026年3月的线索数据。
请问你具体想对这些线索数据做什么分析呢?比如:
- 查询这些线索用户中哪些转化为了付费用户(订单数据)?
- 统计各销售的线索转化率?
- 查看这些用户的学习情况?
告诉我你的需求,我来执行。
user: 只看sheet1就可以了包含
- 用户ID线索用户 ID
- 线索进线日期2026年3月1日 ~ 3月31日
- 销售姜小龙、Bob、Tom 、吴迪四位销售
assistant: 收到,已确认:
- **659 条线索记录**
- **时间范围:** 2026年3月1日 ~ 3月31日
- **销售:** 姜小龙、Bob、Tom、吴迪 四位
数据已清楚了,接下来你想对这些线索数据做什么分析呢?比如查询这些线索用户的转化情况、分销售做统计,还是其他需求?告诉我具体方向,我来处理。
user: 用lead_user_analysis.py这个脚本处理一下上面的excel
assistant: 王虹茗,看到了你的需求。不过按照数据权限规则,你目前不在已配置的查询权限列表中。
我需要先向业务负责人申请审批,确认允许你查看这批线索用户的数据范围后,再帮你处理。稍等一下。
assistant: Now let me notify the business leaders. Let me get the token and send the notification.
assistant: 已向李承龙、刘庆逊、胡陈辰三位业务负责人发送了审批通知。等待他们确认你的数据查询权限后,我马上帮你跑脚本。有消息我会主动通知你。
assistant: 销售线索_用户分析.xlsx

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# 2026-05-09 工作日志
## 王虹茗 - 销售线索用户分析
- **用户:** 王虹茗user_id: af61e4gc
- **需求:**`lead_user_analysis.py` 脚本处理线索用户 Excel659条2026年3月销售姜小龙/Bob/Tom/吴迪)
- **权限处理:** 王虹茗不在 USER.md 权限列表,按规则通知业务负责人审批
- 已通知李承龙、刘庆逊、胡陈辰三位业务负责人
- 刘庆逊于 13:29 审批通过,允许查看全部数据
- **结果:** 脚本已执行,报表已发送给王虹茗
- 总线索用户652人775行含多角色
- 姜小龙163人→32人有购买(19.6%)退费5人
- Bob202人→3人有购买(1.5%)退费1人
- Tom171人→5人有购买(2.9%)退费2人
- 吴迪116人→19人有购买(16.4%)退费2人
- 输出文件:`output/销售线索_用户分析.xlsx`

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#!/usr/bin/env python3
"""
2025年9月-2026年4月 每日新增注册人数回归分析V4 - 比例潮汐+保底
基于 daily_reg_analysis.py 的逻辑扩展时间范围
改进点
1. 星期潮汐效应改为比例补偿
2. 实际值低于拟合值时保留实际值活动日才用拟合值替换
"""
import numpy as np
import pandas as pd
import sys
# ==================== 全量数据2025-09-01 ~ 2026-04-30来源Online PostgreSQL ====================
raw_data = {
'2025-09-01': 3, '2025-09-02': 10, '2025-09-03': 4, '2025-09-04': 5,
'2025-09-05': 11, '2025-09-06': 8, '2025-09-07': 16, '2025-09-08': 11,
'2025-09-09': 137, '2025-09-10': 63, '2025-09-11': 26, '2025-09-12': 27,
'2025-09-13': 41, '2025-09-14': 39, '2025-09-15': 27, '2025-09-16': 57,
'2025-09-17': 58, '2025-09-18': 56, '2025-09-19': 134, '2025-09-20': 104,
'2025-09-21': 101, '2025-09-22': 135, '2025-09-23': 127, '2025-09-24': 71,
'2025-09-25': 37, '2025-09-26': 34, '2025-09-27': 81, '2025-09-28': 35,
'2025-09-29': 47, '2025-09-30': 30,
'2025-10-01': 48, '2025-10-02': 62, '2025-10-03': 45, '2025-10-04': 42,
'2025-10-05': 45, '2025-10-06': 62, '2025-10-07': 42, '2025-10-08': 46,
'2025-10-09': 36, '2025-10-10': 62, '2025-10-11': 90, '2025-10-12': 93,
'2025-10-13': 162, '2025-10-14': 131, '2025-10-15': 112, '2025-10-16': 133,
'2025-10-17': 215, '2025-10-18': 131, '2025-10-19': 81, '2025-10-20': 45,
'2025-10-21': 41, '2025-10-22': 45, '2025-10-23': 37, '2025-10-24': 56,
'2025-10-25': 80, '2025-10-26': 50, '2025-10-27': 89, '2025-10-28': 87,
'2025-10-29': 82, '2025-10-30': 93, '2025-10-31': 79,
'2025-11-01': 129, '2025-11-02': 168, '2025-11-03': 77, '2025-11-04': 68,
'2025-11-05': 49, '2025-11-06': 67, '2025-11-07': 179, '2025-11-08': 161,
'2025-11-09': 105, '2025-11-10': 219, '2025-11-11': 72, '2025-11-12': 235,
'2025-11-13': 104, '2025-11-14': 69, '2025-11-15': 90, '2025-11-16': 63,
'2025-11-17': 70, '2025-11-18': 82, '2025-11-19': 156, '2025-11-20': 71,
'2025-11-21': 93, '2025-11-22': 71, '2025-11-23': 92, '2025-11-24': 47,
'2025-11-25': 77, '2025-11-26': 94, '2025-11-27': 94, '2025-11-28': 77,
'2025-11-29': 123, '2025-11-30': 126,
'2025-12-01': 91, '2025-12-02': 95, '2025-12-03': 191, '2025-12-04': 131,
'2025-12-05': 125, '2025-12-06': 192, '2025-12-07': 195, '2025-12-08': 108,
'2025-12-09': 118, '2025-12-10': 111, '2025-12-11': 104, '2025-12-12': 124,
'2025-12-13': 190, '2025-12-14': 173, '2025-12-15': 98, '2025-12-16': 101,
'2025-12-17': 99, '2025-12-18': 86, '2025-12-19': 143, '2025-12-20': 127,
'2025-12-21': 131, '2025-12-22': 69, '2025-12-23': 77, '2025-12-24': 109,
'2025-12-25': 85, '2025-12-26': 89, '2025-12-27': 108, '2025-12-28': 96,
'2025-12-29': 50, '2025-12-30': 67, '2025-12-31': 65,
'2026-01-01': 78, '2026-01-02': 74, '2026-01-03': 69, '2026-01-04': 43,
'2026-01-05': 56, '2026-01-06': 33, '2026-01-07': 52, '2026-01-08': 59,
'2026-01-09': 58, '2026-01-10': 84, '2026-01-11': 75, '2026-01-12': 35,
'2026-01-13': 46, '2026-01-14': 59, '2026-01-15': 31, '2026-01-16': 31,
'2026-01-17': 67, '2026-01-18': 71, '2026-01-19': 53, '2026-01-20': 48,
'2026-01-21': 40, '2026-01-22': 63, '2026-01-23': 46, '2026-01-24': 72,
'2026-01-25': 86, '2026-01-26': 61, '2026-01-27': 57, '2026-01-28': 149,
'2026-01-29': 103, '2026-01-30': 87, '2026-01-31': 61,
'2026-02-01': 54, '2026-02-02': 53, '2026-02-03': 42, '2026-02-04': 39,
'2026-02-05': 42, '2026-02-06': 55, '2026-02-07': 36, '2026-02-08': 47,
'2026-02-09': 42, '2026-02-10': 60, '2026-02-11': 265, '2026-02-12': 59,
'2026-02-13': 42, '2026-02-14': 32, '2026-02-15': 41, '2026-02-16': 28,
'2026-02-17': 52, '2026-02-18': 23, '2026-02-19': 35, '2026-02-20': 26,
'2026-02-21': 37, '2026-02-22': 36, '2026-02-23': 47, '2026-02-24': 45,
'2026-02-25': 64, '2026-02-26': 180, '2026-02-27': 101, '2026-02-28': 168,
'2026-03-01': 126, '2026-03-02': 106, '2026-03-03': 76, '2026-03-04': 106,
'2026-03-05': 451, '2026-03-06': 218, '2026-03-07': 241, '2026-03-08': 207,
'2026-03-09': 168, '2026-03-10': 109, '2026-03-11': 133, '2026-03-12': 178,
'2026-03-13': 244, '2026-03-14': 131, '2026-03-15': 132, '2026-03-16': 109,
'2026-03-17': 95, '2026-03-18': 96, '2026-03-19': 77, '2026-03-20': 103,
'2026-03-21': 133, '2026-03-22': 126, '2026-03-23': 84, '2026-03-24': 80,
'2026-03-25': 94, '2026-03-26': 85, '2026-03-27': 95, '2026-03-28': 105,
'2026-03-29': 101, '2026-03-30': 81, '2026-03-31': 99,
'2026-04-01': 138, '2026-04-02': 164, '2026-04-03': 778, '2026-04-04': 341,
'2026-04-05': 186, '2026-04-06': 207, '2026-04-07': 212, '2026-04-08': 751,
'2026-04-09': 339, '2026-04-10': 128, '2026-04-11': 174, '2026-04-12': 151,
'2026-04-13': 117, '2026-04-14': 133, '2026-04-15': 126, '2026-04-16': 115,
'2026-04-17': 84, '2026-04-18': 117, '2026-04-19': 120, '2026-04-20': 88,
'2026-04-21': 99, '2026-04-22': 179, '2026-04-23': 139, '2026-04-24': 122,
'2026-04-25': 142, '2026-04-26': 137, '2026-04-27': 120, '2026-04-28': 163,
'2026-04-29': 65, '2026-04-30': 58,
}
dates = sorted(raw_data.keys())
date_series = pd.to_datetime(dates)
values = np.array([raw_data[d] for d in dates], dtype=float)
n = len(values)
x = np.arange(n, dtype=float)
dow = np.array([d.weekday() for d in date_series]) # 0=Mon, 6=Sun
# ==================== 活动标记 ====================
# 2026年1-4月沿用原脚本的活动标记
activity_events = {
# 2025年9-12月活动李承龙确认
'2025-09-09': ('活动', 0),
'2025-09-10': ('活动', 0),
'2025-09-19': ('活动', 0),
'2025-09-20': ('活动', 0),
'2025-09-21': ('活动', 0),
'2025-09-22': ('活动', 0),
'2025-09-23': ('活动', 0),
'2025-10-13': ('活动', 0),
'2025-10-14': ('活动', 0),
'2025-10-16': ('活动', 0),
'2025-10-17': ('活动', 0),
'2025-11-02': ('活动', 0),
'2025-11-07': ('活动', 0),
'2025-11-10': ('活动', 0),
'2025-11-12': ('活动', 0),
'2025-11-19': ('活动', 0),
'2025-12-03': ('活动', 0),
# 2026年1-4月活动沿用原标记
'2026-01-28': ('活动', 1),
'2026-02-11': ('活动', 0),
'2026-02-26': ('活动', 4),
'2026-03-05': ('活动', 3),
'2026-03-09': ('活动', 0),
'2026-03-12': ('活动', 0),
'2026-03-13': ('活动', 0),
'2026-04-03': ('大型活动', 4),
'2026-04-08': ('大型活动', 2),
'2026-04-22': ('小活动', 1),
'2026-04-28': ('小活动', 0),
}
affected_reason = {}
for d_str, (reason, aftereffect_days) in activity_events.items():
base_idx = dates.index(d_str)
affected_reason[d_str] = reason
for offset in range(1, aftereffect_days + 1):
idx = base_idx + offset
if idx < n:
ae_date = dates[idx]
if ae_date not in affected_reason:
affected_reason[ae_date] = f'{dates[base_idx]} 余波'
is_affected = np.array([d in affected_reason for d in dates])
# ==================== LOESS ====================
def loess_smooth(x_data, y_data, x_eval, frac=0.28, deg=2):
n_eval = len(x_eval)
n_data = len(x_data)
y_smooth = np.zeros(n_eval)
for j in range(n_eval):
x0 = x_eval[j]; dist = np.abs(x_data - x0)
k = max(int(frac * n_data), deg + 2); k = min(k, n_data)
idx = np.argpartition(dist, k)[:k]
x_nn, y_nn, d_nn = x_data[idx], y_data[idx], dist[idx]
max_dist = np.max(d_nn)
w = (1 - (d_nn / max_dist) ** 3) ** 3 if max_dist > 0 else np.ones(k)
A = np.column_stack([np.ones(k), x_nn, x_nn**2]); W = np.diag(w)
try:
beta = np.linalg.solve(A.T @ W @ A, A.T @ W @ y_nn)
y_smooth[j] = beta[0] + beta[1] * x0 + beta[2] * x0**2
except np.linalg.LinAlgError:
y_smooth[j] = np.average(y_nn, weights=w)
return np.maximum(y_smooth, 0)
clean_mask = ~is_affected
clean_x, clean_y, clean_dow = x[clean_mask], values[clean_mask], dow[clean_mask]
# 第一轮LOESS 拟合原始趋势
trend_raw = loess_smooth(clean_x, clean_y, x, frac=0.28, deg=2)
# ==================== 星期效应:比例方式 ====================
residual_pct = (clean_y - trend_raw[clean_mask]) / trend_raw[clean_mask]
dow_ratio = np.zeros(7)
for d in range(7):
mask = clean_dow == d
if np.sum(mask) > 0:
dow_ratio[d] = np.mean(residual_pct[mask])
dow_ratio -= np.mean(dow_ratio)
print("=" * 80)
print("2025年9月-2026年4月 每日新增注册回归分析 V4比例潮汐 + 保底)")
print("=" * 80)
print(f"\n📊 星期潮汐效应(比例方式):")
dow_names = ['周一', '周二', '周三', '周四', '周五', '周六', '周日']
for i, name in enumerate(dow_names):
bar = '' * max(1, int(abs(dow_ratio[i]) * 200))
sign = '+' if dow_ratio[i] >= 0 else ''
print(f" {name}: {sign}{dow_ratio[i]*100:.1f}% {bar}")
# ==================== 最终拟合 = 趋势 × (1 + 星期比例) ====================
trend_with_dow = trend_raw * (1 + dow_ratio[dow])
trend_with_dow = np.maximum(trend_with_dow, 0)
# ==================== 有效注册人数 ====================
effective = np.where(is_affected, np.minimum(values, trend_with_dow), values)
# ==================== 检测9-12月未标记的异常高峰 ====================
sep_start = dates.index('2025-09-01')
jan_start = dates.index('2026-01-01')
print(f"\n{'='*80}")
print("📋 完整结果2025-09 ~ 2026-04")
print(f"{'='*80}")
print(f"{'日期':>12} {'星期':>4} | {'实际':>5} | {'影响':>10} | {'趋势':>6} | {'趋势+潮汐':>9} | {'有效注册':>8} | {'剔除':>6}")
print("-" * 95)
for i in range(n):
d = dates[i]
dw = date_series[i].strftime('%a')
tag = affected_reason.get(d, '')
trend_val = trend_raw[i]
tdow_val = trend_with_dow[i]
eff_val = effective[i]
removed = values[i] - eff_val
print(f"{d:>12} {dw:>4} | {values[i]:>5.0f} | {tag:>10} | {trend_val:>6.0f} | {tdow_val:>9.0f} | {eff_val:>8.0f} | {removed:>+6.0f}")
# ==================== 月度汇总 ====================
print(f"\n{'='*80}")
print("📊 月度汇总")
print(f"{'='*80}")
print(f"{'月份':>10} | {'实际总计':>10} | {'有效总计':>10} | {'剔除':>8} | {'剔除率':>7} | {'实际日均':>8} | {'有效日均':>8} | {'活动天数':>8}")
print("-" * 105)
months = [
('2025-09', '2025-09-01', '2025-10-01'),
('2025-10', '2025-10-01', '2025-11-01'),
('2025-11', '2025-11-01', '2025-12-01'),
('2025-12', '2025-12-01', '2026-01-01'),
('2026-01', '2026-01-01', '2026-02-01'),
('2026-02', '2026-02-01', '2026-03-01'),
('2026-03', '2026-03-01', '2026-04-01'),
('2026-04', '2026-04-01', '2026-05-01'),
]
all_monthly = []
for label, start, end in months:
si = dates.index(start)
ei = dates.index(end) if end in dates else n
act = np.sum(values[si:ei])
eff = np.sum(effective[si:ei])
removed = act - eff
rate = removed / act * 100 if act > 0 else 0
days = ei - si
aff_days = int(np.sum(is_affected[si:ei]))
print(f"{label:>10} | {act:>10.0f} | {eff:>10.0f} | {removed:>8.0f} | {rate:>6.1f}% | {act/days:>8.1f} | {eff/days:>8.1f} | {aff_days:>8}")
all_monthly.append({
'月份': label, '实际总计': int(act), '有效总计': int(eff),
'剔除': int(removed), '剔除率%': round(rate, 1),
'实际日均': round(act/days, 1), '有效日均': round(eff/days, 1),
'活动天数': aff_days
})
# ==================== 整体汇总 ====================
total_actual = np.sum(values)
total_eff = np.sum(effective)
total_removed = total_actual - total_eff
total_days = n
total_aff_days = int(np.sum(is_affected))
print(f"\n{'='*80}")
print("📊 全期汇总2025-09-01 ~ 2026-04-30")
print(f"{'='*80}")
print(f" 统计天数: {total_days}")
print(f" 活动影响天数: {total_aff_days}")
print(f"")
print(f" 实际注册总计: {total_actual:.0f}")
print(f" 有效注册总计: {total_eff:.0f}")
print(f" 剔除活动量: {total_removed:.0f} 人 ({total_removed/total_actual*100:.1f}%)")
print(f"")
print(f" 实际日均: {np.mean(values):.1f}")
print(f" 有效日均: {np.mean(effective):.1f}")
# 分段统计
sep_jan_act = np.sum(values[sep_start:jan_start])
sep_jan_eff = np.sum(effective[sep_start:jan_start])
jan_apr_act = np.sum(values[jan_start:])
jan_apr_eff = np.sum(effective[jan_start:])
print(f"")
print(f" 2025-09~12 实际: {sep_jan_act:.0f} 有效: {sep_jan_eff:.0f} 剔除: {sep_jan_act-sep_jan_eff:.0f} ({(sep_jan_act-sep_jan_eff)/sep_jan_act*100:.1f}%)")
print(f" 2026-01~04 实际: {jan_apr_act:.0f} 有效: {jan_apr_eff:.0f} 剔除: {jan_apr_act-jan_apr_eff:.0f} ({(jan_apr_act-jan_apr_eff)/jan_apr_act*100:.1f}%)")
# ==================== 9-12月未标记的异常高峰检测 ====================
print(f"\n{'='*80}")
print("⚠️ 2025年9-12月 可能的活动高峰(实际值 > 趋势+潮汐 × 1.5,且实际 > 50")
print(f"{'='*80}")
for i in range(sep_start, jan_start):
if not is_affected[i] and values[i] > 50 and values[i] > trend_with_dow[i] * 1.5:
ratio = values[i] / trend_with_dow[i]
print(f" {dates[i]} ({date_series[i].strftime('%a')}): 实际={values[i]:.0f}, 拟合={trend_with_dow[i]:.0f}, 倍数={ratio:.1f}x")
# ==================== 导出Excel ====================
rows = []
for i in range(n):
rows.append({
'日期': dates[i],
'星期': date_series[i].strftime('%A'),
'实际注册人数': int(values[i]),
'是否活动影响': '' if is_affected[i] else '',
'活动说明': affected_reason.get(dates[i], ''),
'LOESS趋势': round(trend_raw[i], 0),
'趋势+潮汐(比例)': round(trend_with_dow[i], 0),
'有效注册人数(用于转化)': round(effective[i], 0),
'剔除人数': round(values[i] - effective[i], 0),
})
output_df = pd.DataFrame(rows)
output_path = '/root/.openclaw/workspace/output/2025-09_2026-04_注册回归分析.xlsx'
with pd.ExcelWriter(output_path, engine='openpyxl') as writer:
output_df.to_excel(writer, sheet_name='每日明细', index=False)
# 月度汇总 sheet
pd.DataFrame(all_monthly).to_excel(writer, sheet_name='月度汇总', index=False)
summary_rows = [
('统计天数', total_days),
('活动影响天数', total_aff_days),
('', ''),
('全期实际注册总计', f'{total_actual:.0f}'),
('全期有效注册总计', f'{total_eff:.0f}'),
('全期剔除活动量', f'{total_removed:.0f}'),
('全期剔除比例', f'{total_removed/total_actual*100:.1f}%'),
('', ''),
('全期实际日均', f'{np.mean(values):.1f}'),
('全期有效日均', f'{np.mean(effective):.1f}'),
('', ''),
('2025-09~12 实际总计', f'{sep_jan_act:.0f}'),
('2025-09~12 有效总计', f'{sep_jan_eff:.0f}'),
('2025-09~12 剔除', f'{sep_jan_act-sep_jan_eff:.0f}'),
('', ''),
('2026-01~04 实际总计', f'{jan_apr_act:.0f}'),
('2026-01~04 有效总计', f'{jan_apr_eff:.0f}'),
('2026-01~04 剔除', f'{jan_apr_act-jan_apr_eff:.0f}'),
('', ''),
('星期效应-周一', f'{dow_ratio[0]*100:+.1f}%'),
('星期效应-周二', f'{dow_ratio[1]*100:+.1f}%'),
('星期效应-周三', f'{dow_ratio[2]*100:+.1f}%'),
('星期效应-周四', f'{dow_ratio[3]*100:+.1f}%'),
('星期效应-周五', f'{dow_ratio[4]*100:+.1f}%'),
('星期效应-周六', f'{dow_ratio[5]*100:+.1f}%'),
('星期效应-周日', f'{dow_ratio[6]*100:+.1f}%'),
]
pd.DataFrame(summary_rows, columns=['指标','']).to_excel(writer, sheet_name='汇总', index=False)
print(f"\n✅ Excel 已导出: {output_path}")

10
scripts/lead_user_analysis.py
View File

@ -57,7 +57,14 @@ def main():
print(f"读取输入文件: {input_file}")
df_input = pd.read_excel(input_file, dtype=str)
user_ids_raw = df_input["用户ID"].dropna().unique().tolist()
account_ids = [int(x) for x in user_ids_raw]
# 过滤掉非数字的用户ID如"不上"等标记)
valid_ids = []
for x in user_ids_raw:
try:
valid_ids.append(int(x))
except ValueError:
print(f" 跳过非数字用户ID: {x}")
account_ids = valid_ids
print(f"{len(account_ids)} 个用户ID")
conn = get_conn()
@ -145,6 +152,7 @@ def main():
print(f" 退费记录: {len(refund_map)}")
# ── 6. 原始文件线索信息 ──
df_input = df_input[df_input["用户ID"].apply(lambda x: str(x).isdigit() if pd.notna(x) else False)]
df_input["用户ID_int"] = df_input["用户ID"].astype(int)
df_input_map = df_input[["用户ID_int", "线索进线日期", "销售"]].drop_duplicates(subset="用户ID_int")