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Report_Generate_Server/tools/dataproccess.py

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import sys, os
from tools.Get_Json import get_defect_detail
from tools.defines import *
def caculate_work_days(start_date : str, end_date : str) -> str:
"""根据起止日期计算工期
Args:
start_date (str): 格式: yyyy-mm-ddThh:mm:ss
end_date (str): 格式: yyyy-mm-ddThh:mm:ss
Returns:
str: 计算出来的总工期,单位为天
"""
import datetime
if start_date == None or end_date == None:
return f"开始时间{start_date} ---- 结束时间{end_date} 日期格式错误"
start_date = datetime.datetime.strptime(start_date, '%Y-%m-%dT%H:%M:%S')
end_date = datetime.datetime.strptime(end_date, '%Y-%m-%dT%H:%M:%S')
return (end_date - start_date).days
def get_year_month(date):
"""根据格式化date字符串获取年月 'date': '二〇二一年十二月十日 9:00'
Args: date (str): 日期字符串
Returns: 年月字符串 '二〇二一年十二月'
"""
unit_map = {'1' : '', '2' : '', '3' : '', '4' : '', '5' : '', '6' : '', '7' : '', '8' : '', '9' : '', '0' : ''}
unit_map_month = {1 : '', 2 : '', 3 : '', 4 : '', 5 : '', 6 : '', 7 : '', 8 : '', 9 : '', 10 : '', 11 : '十一', 12 : '十二'}
year = date.split('')[0]
month = date.split('')[1].split('')[0]
year = ''.join([unit_map[i] for i in year])
month = unit_map_month[int(month)]
return f"{year}{month}"
def merge_info(frontend_info, default_info):
"""
合并前端传入的 info 和默认 info
新规则以default_info为基础字典用frontend_info完全覆写取两者的并集
Args:
frontend_info: 前端传入的字典
default_info: 默认的完整字典
Returns:
合并后的完整字典
"""
if not isinstance(frontend_info, dict) or frontend_info is None:
return default_info.copy()
# 先复制默认字典
merged_info = default_info.copy()
# 用前端字典完全覆写
merged_info.update(frontend_info)
return merged_info
def merge_dicts(dict1, dict2):
# 创建一个新的字典来存储合并结果
merged_dict = {}
# 遍历第一个字典
for key, value_list in dict1.items():
if key in dict2:
# 如果键在第二个字典中存在,合并两个列表
merged_dict[key] = value_list + dict2[key]
else:
# 如果键在第二个字典中不存在,直接使用第一个字典的值列表
merged_dict[key] = value_list
# 遍历第二个字典
for key, value_list in dict2.items():
if key not in dict1:
# 如果键在第一个字典中不存在,直接使用第二个字典的值列表
merged_dict[key] = value_list
return merged_dict
def get_defect_str(Y_defect_list : list[dict] ) -> list:
"""将叶片缺陷信息转换为一条条描述信息
Args:
Y_defect_list (list):[
{
'record' : {'defectId': '02d892a178a82561bb565559102c7a58', 'imageId': '41543f531be24522b7bec741b9a483a2', 'defectName': '手动添加的缺陷1', 'defectCode': None, 'partName': '叶片1', 'defectTypeLabel': '表面裂纹', 'defectType': 'bmlw', 'defectLevelLabel': '轻微缺陷', 'defectLevel': 'SLIGHT', 'defectPosition': '', 'description': '手动添加的缺陷,请填写详细描述', 'repairIdea': '建议进行进一步检查', 'labelInfo': None, 'markInfo': {'label': None, 'clsId': None, 'bbox': None, 'confidence': 0.0}}
'imagePath' : '/image/path'
},
....
]
Returns:
result (list):
[
"叶片1表面裂纹轻微缺陷位于{defectPosition},建议进行进一步检查",
],
...
"""
result = []
for item in Y_defect_list:
record = item['record']
defect_type_label = record.get('defectTypeLabel', '未知类型')
defect_level_label = record.get('defectLevelLabel', '未知等级')
defect_position = record.get('defectPosition', '未知位置')
repair_idea = record.get('repairIdea', '无建议')
defect_description = f"{defect_type_label}{defect_level_label}缺陷,位于{defect_position}{repair_idea}"
result.append(defect_description)
return result
def safe_get(data, *keys, default=None):
"""
递归安全访问嵌套字典的键,如果中间键不存在,则返回默认值
Args:
data (dict): 要访问的字典
*keys: 要访问的键(可以是多个,如 "叶片1", "裂纹"
default: 如果键不存在返回的默认值默认None
Returns:
如果所有键都存在,返回对应的值;否则返回 default
"""
if not keys or data is None:
return data if data is not None else default
current_key = keys[0]
if isinstance(data, dict):
return safe_get(data.get(current_key), *keys[1:], default=default)
else:
return default
def is_frozen():
return hasattr(sys, 'frozen') or hasattr(sys, '_MEIPASS')
def get_resource_path(relative_path):
""" 获取资源的路径 """
if is_frozen():
base_path = sys._MEIPASS
else:
base_path = os.path.abspath(".")
return os.path.join(base_path, relative_path)
def get_defedct_info(defect_dict):
"""获取按缺陷类型分类的缺陷信息
Args:
defect_dict (dict):
{'叶片1':
{'DEFECT':[{'record':
{
'defectId': '02d892a178a82561bb565559102c7a58',
'imageId': '41543f531be24522b7bec741b9a483a2',
'defectName': '手动添加的缺陷1',
'defectCode': None,
'partName': '叶片1',
'defectTypeLabel': '表面裂纹',
'defectType': 'bmlw',
'defectLevelLabel': '轻微缺陷',
'defectLevel': 'SLIGHT',
'defectPosition': '',
'description': '手动添加的缺陷,请填写详细描述',
'repairIdea': '建议进行进一步检查',
'labelInfo': None,
'markInfo': {'label': None, 'clsId': None, 'bbox': None, 'confidence': 0.0},
'imagePath': '/static/image/temp/out-work/12bc30fb209f3af3bf530541c5b062bd/F02_机组10060_叶片叶片PS面距叶根15.5米处轴向裂纹轴向260mm弦向20mm。DJI_20250526090227_0052_Z.png'
},
...
},]
}
},
...
Returns:
result (dict):
{
'叶片1': { #按叶片分记录
'表面裂纹': { 'SLIGHT': #按类型分等级,等级从'defectLevel'获取
[ #按等级分记录
{
record:{...}
}, #一张图片一个记录
...
]
...
}
}
}
result2 (dict):
{
'叶片1': { #按叶片分记录
'表面裂纹': [ #按类型分记录
"""
result = {} #缺陷等级数量列表
result2 = {} #缺陷树状列表
for part_name, part_info in defect_dict.items():
if part_name not in result:
result[part_name] = {}
result2[part_name] = {}
for defect_type, defect_list in part_info.items():
for defect_dict in defect_list:
record = defect_dict['record']
type_label = record['defectTypeLabel']
level = record['defectLevel']
if type_label not in result[part_name]:
result2[part_name][type_label] = []
if type_label not in result[part_name]:
result[part_name][type_label] = {}
if level not in result[part_name][type_label]:
result[part_name][type_label][level] = []
result[part_name][type_label][level].append(defect_dict)
p = record['defectPosition']
t = record['defectTypeLabel']
l = record['defectLevelLabel']
d = record['description']
did = record['defectId']
iid = record['imageId']
detail = get_defect_detail(did)
a = detail.get('axial', '')
c = detail.get('chordwise', '')
area = f"轴向:{a}mm弦向{c}mm"
record_info = [f"{p}{t}{l}{d}", area, iid]
result2[part_name][type_label].append(record_info)
return result, result2
def get_defect_json(defect_info: dict, Y_code: list[str], turbine_code: str) -> dict:
"""将缺陷信息转换为表格形式的JSON格式
Args:
defect_info: 结构为 {叶片1/2/3: {缺陷类型: [{'record': {...}}, ...]}}
Y_code: 叶片编号列表,如 ['1001', '1002', '1003']
turbine_code: 机组编号,如 'G01'
Returns:
{
"type": "table",
"content": {
"rows": 总行数,
"cols": 4,
"merged_cells": [合并信息],
"cells": [表格内容]
}
}
"""
# 初始化表格
cells = []
merged_cells = []
# 默认设置
default_border = {
"top": {"style": "single", "size": "4", "color": "000000"},
"left": {"style": "single", "size": "4", "color": "000000"},
"bottom": {"style": "single", "size": "4", "color": "000000"},
"right": {"style": "single", "size": "4", "color": "000000"}
}
# 1. 计算总行数(先计算再创建表头)
total_defect_rows = sum(len(defects) for blade_defects in defect_info.values()
for defects in blade_defects.values())
total_rows = 1 + total_defect_rows # 表头 + 数据行
# 2. 创建表头行第0行
header_row = [
create_cell(0, 0, "机组号", default_border),
create_cell(0, 1, "叶片号", default_border),
create_cell(0, 2, "损坏描述", default_border),
create_cell(0, 3, "缺陷面积", default_border)
]
cells.append(header_row)
# 3. 填充数据行从第1行开始
current_data_row = 1
# 合并机组号(如果有多行数据)
if total_defect_rows > 1:
merged_cells.append({
"start_row": 1, # 第2行(0-based中的1)
"start_col": 0,
"end_row": total_rows - 1, # 最后一行(0-based)
"end_col": 0
})
# 填充机组号(仅第一行数据行)
if total_defect_rows > 0:
first_data_row = [
create_cell(1, 0, turbine_code, default_border,
is_merged=total_defect_rows>1, is_primary=True),
None, None, None
]
cells.append(first_data_row)
# 按叶片顺序填充数据
for blade_idx, (blade_key, blade_defects) in enumerate(defect_info.items(), 1):
blade_code = Y_code[blade_idx - 1]
blade_defect_count = sum(len(defects) for defects in blade_defects.values())
if blade_defect_count > 1:
merged_cells.append({
"start_row": current_data_row, # 当前行(0-based)
"start_col": 1,
"end_row": current_data_row + blade_defect_count - 1, # 结束行(0-based)
"end_col": 1
})
# 填充缺陷数据
for defect_type, records in blade_defects.items():
for record in records:
# 确保不超过总行数
if current_row >= total_rows:
break
description = record.get('record', {}).get('损坏描述', '待填写')
area = record.get('record', {}).get('缺陷面积', '待填写')
is_primary = (not merged_cells or
current_row == merged_cells[-1]["start_row"])
row_data = [
None, # 机组号(已合并)
create_cell(current_row, 1, blade_code, default_border,
is_merged=blade_defect_count>1, is_primary=is_primary),
create_cell(current_row, 2, str(description), default_border),
create_cell(current_row, 3, str(area), default_border)
]
cells.append(row_data)
current_row += 1
# 填充空单元格
for row_idx, row in enumerate(cells):
for col_idx in range(4):
if row[col_idx] is None:
row[col_idx] = create_cell(row_idx, col_idx, "", default_border)
# 最终行数检查(调试用)
print(f"调试信息: 预期行数={total_rows}, 实际行数={len(cells)}")
print(f"缺陷信息统计: 叶片数={len(defect_info)}, 总缺陷数={total_defect_rows}")
return [{
"type": "table",
"content": {
"rows": len(cells), # 使用实际行数而非计算行数
"cols": 4,
"merged_cells": merged_cells,
"cells": cells
}
}]
def create_cell(row, col, text, border, is_merged=False, is_primary=False):
"""创建标准化的单元格结构"""
return {
"row": row,
"col": col,
"is_merged": is_merged,
"alignment": "center",
"border": border,
"merge_info": {"is_primary": is_primary},
"content": [{
"alignment": "center",
"runs": [{
"text": text,
"font": {
"name": "宋体",
"size": 12,
"bold": False,
"italic": False,
"underline": False,
"color": {"r": 0, "g": 0, "b": 0}
}
}]
}]
}
from typing import Dict, List, Any
def tree_dict_to_table_data(tree: Dict) -> List[List[Any]]:
"""
将树状字典转换为二维表格数据(保留原始类型)
参数:
tree: 树状字典结构为dict[dict[...[list]]]
返回:
二维列表,每个子列表代表一条路径(元素类型与输入一致),确保最内层列表被展开
"""
result = []
def traverse(node: Dict, path: List[Any]) -> None:
for key, value in node.items():
current_path = path + [key] # 保留键的原始类型
if isinstance(value, dict):
traverse(value, current_path)
elif isinstance(value, list):
for item in value:
if isinstance(item, list):
# 如果列表项本身是列表,则展开它
result.append(current_path + item)
else:
# 否则作为单个元素添加
result.append(current_path + [item])
else:
result.append(current_path + [value]) # 保留值的原始类型
traverse(tree, [])
return result
def defect_list_addtitle(list_data: List[List[str]], turbine_code: str):
"""
给缺陷列表添加标题行
"""
list_data.insert(0, DEFECT_TABLE)
for i,l1 in enumerate(list_data):
if i == 0:
continue
l1.insert(0, turbine_code)
return list_data
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