xlsx-manipulation
БесплатноБез исполняемых скриптовНе проверенCreate, edit, and manipulate Excel spreadsheets programmatically using openpyxl
Об этом скилле
XLSX Manipulation Skill
Overview
This skill enables programmatic creation, editing, and manipulation of Microsoft Excel (.xlsx) spreadsheets using the openpyxl library. Create professional spreadsheets with formulas, formatting, charts, and data validation without manual editing.
How to Use
- Describe the spreadsheet you want to create or modify
- Provide data, formulas, or formatting requirements
- I'll generate openpyxl code and execute it
Example prompts:
- "Create a budget spreadsheet with monthly tracking"
- "Add conditional formatting to highlight values above threshold"
- "Generate a pivot-table-like summary from this data"
- "Create a dashboard with charts and KPIs"
Domain Knowledge
openpyxl Fundamentals
from openpyxl import Workbook, load_workbook
from openpyxl.styles import Font, Fill, Border, Alignment
from openpyxl.chart import BarChart, Reference
# Create new workbook
wb = Workbook()
ws = wb.active
# Or open existing
wb = load_workbook('existing.xlsx')
ws = wb.active
Workbook Structure
Workbook
├── worksheets (sheets/tabs)
│ ├── cells (data storage)
│ ├── rows/columns (formatting)
│ ├── merged_cells
│ └── charts
├── defined_names (named ranges)
└── styles (formatting templates)
Working with Cells
Basic Cell Operations
# By cell reference
ws['A1'] = 'Header'
ws['B1'] = 42
# By row, column
ws.cell(row=1, column=3, value='Data')
# Multiple cells
ws['A1:C1'] = 'Col1', 'Col2', 'Col3'
# Append rows
ws.append(['Row', 'Data', 'Here'])
Reading Cells
# Single cell
value = ws['A1'].value
# Cell range
for row in ws['A1:C3']:
for cell in row:
print(cell.value)
# Iterate rows
for row in ws.iter_rows(min_row=1, max_row=10, min_col=1, max_col=3):
for cell in row:
print(cell.value)
Formulas
# Basic formulas
ws['D1'] = '=SUM(A1:C1)'
ws['D2'] = '=AVERAGE(A2:C2)'
ws['E1'] = '=IF(D1>100,"High","Low")'
# Named ranges
from openpyxl.workbook.defined_name import DefinedName
ref = "Sheet!$A$1:$C$10"
defn = DefinedName("SalesData", attr_text=ref)
wb.defined_names.add(defn)
# Use named range
ws['F1'] = '=SUM(SalesData)'
Formatting
Cell Styles
from openpyxl.styles import Font, Fill, PatternFill, Border, Side, Alignment
# Font
ws['A1'].font = Font(
name='Arial',
size=14,
bold=True,
italic=False,
color='FF0000' # Red
)
# Fill (background)
ws['A1'].fill = PatternFill(
start_color='FFFF00', # Yellow
end_color='FFFF00',
fill_type='solid'
)
# Border
thin_border = Border(
left=Side(style='thin'),
right=Side(style='thin'),
top=Side(style='thin'),
bottom=Side(style='thin')
)
ws['A1'].border = thin_border
# Alignment
ws['A1'].alignment = Alignment(
horizontal='center',
vertical='center',
wrap_text=True
)
Number Formats
# Currency
ws['B2'].number_format = '$#,##0.00'
# Percentage
ws['C2'].number_format = '0.00%'
# Date
ws['D2'].number_format = 'YYYY-MM-DD'
# Custom
ws['E2'].number_format = '#,##0.00 "units"'
Conditional Formatting
from openpyxl.formatting.rule import ColorScaleRule, CellIsRule, FormulaRule
from openpyxl.styles import PatternFill
# Color scale (heatmap)
color_scale = ColorScaleRule(
start_type='min', start_color='FF0000',
end_type='max', end_color='00FF00'
)
ws.conditional_formatting.add('A1:A10', color_scale)
# Cell value rule
red_fill = PatternFill(start_color='FFCCCC', end_color='FFCCCC', fill_type='solid')
rule = CellIsRule(operator='greaterThan', formula=['100'], fill=red_fill)
ws.conditional_formatting.add('B1:B10', rule)
Charts
from openpyxl.chart import BarChart, LineChart, PieChart, Reference
# Prepare data
data = Reference(ws, min_col=2, min_row=1, max_col=3, max_row=5)
categories = Reference(ws, min_col=1, min_row=2, max_row=5)
# Bar Chart
chart = BarChart()
chart.type = "col" # or "bar" for horizontal
chart.title = "Sales by Region"
chart.add_data(data, titles_from_data=True)
chart.set_categories(categories)
chart.shape = 4
ws.add_chart(chart, "E1")
# Line Chart
line = LineChart()
line.title = "Trend Analysis"
line.add_data(data, titles_from_data=True)
line.set_categories(categories)
ws.add_chart(line, "E15")
# Pie Chart
pie = PieChart()
pie.add_data(data, titles_from_data=True)
pie.set_categories(categories)
ws.add_chart(pie, "M1")
Data Validation
from openpyxl.worksheet.datavalidation import DataValidation
# Dropdown list
dv = DataValidation(
type="list",
formula1='"Option1,Option2,Option3"',
allow_blank=True
)
dv.error = "Please select from list"
dv.errorTitle = "Invalid Input"
ws.add_data_validation(dv)
dv.add('A1:A100')
# Number range
dv_num = DataValidation(
type="whole",
operator="between",
formula1="1",
formula2="100"
)
ws.add_data_validation(dv_num)
dv_num.add('B1:B100')
Sheet Operations
# Create new sheet
ws2 = wb.create_sheet("Data")
ws3 = wb.create_sheet("Summary", 0) # At position 0
# Rename
ws.title = "Main Report"
# Delete
del wb["Sheet2"]
# Copy
source = wb["Template"]
target = wb.copy_worksheet(source)
Row/Column Operations
# Set column width
ws.column_dimensions['A'].width = 20
# Set row height
ws.row_dimensions[1].height = 30
# Hide column
ws.column_dimensions['C'].hidden = True
# Freeze panes
ws.freeze_panes = 'B2' # Freeze row 1 and column A
# Auto-filter
ws.auto_filter.ref = "A1:D100"
Best Practices
- Use Templates: Start with a .xlsx template for complex formatting
- Batch Operations: Minimize cell-by-cell operations for speed
- Named Ranges: Use defined names for clearer formulas
- Data Validation: Add validation to prevent input errors
- Save Incrementally: For large files, save periodically
Common Patterns
Data Import
def import_csv_to_xlsx(csv_path, xlsx_path):
import csv
wb = Workbook()
ws = wb.active
with open(csv_path) as f:
reader = csv.reader(f)
for row in reader:
ws.append(row)
wb.save(xlsx_path)
Report Template
def create_monthly_report(data, output_path):
wb = Workbook()
ws = wb.active
ws.title = "Monthly Report"
# Headers
headers = ['Date', 'Revenue', 'Expenses', 'Profit']
ws.append(headers)
# Style headers
for col in range(1, 5):
cell = ws.cell(1, col)
cell.font = Font(bold=True)
cell.fill = PatternFill('solid', fgColor='4472C4')
cell.font = Font(bold=True, color='FFFFFF')
# Data
for row in data:
ws.append(row)
# Add totals
last_row = len(data) + 1
ws.cell(last_row + 1, 1, 'TOTAL')
ws.cell(last_row + 1, 2, f'=SUM(B2:B{last_row})')
ws.cell(last_row + 1, 3, f'=SUM(C2:C{last_row})')
ws.cell(last_row + 1, 4, f'=SUM(D2:D{last_row})')
wb.save(output_path)
Examples
Example 1: Budget Tracker
from openpyxl import Workbook
from openpyxl.styles import Font, PatternFill, Alignment, Border, Side
from openpyxl.utils import get_column_letter
wb = Workbook()
ws = wb.active
ws.title = "Budget 2024"
# Headers
months = ['Category', 'Jan', 'Feb', 'Mar', 'Q1 Total']
ws.append(months)
# Categories and data
budget_data = [
['Salary', 5000, 5000, 5000],
['Rent', -1500, -1500, -1500],
['Utilities', -200, -180, -220],
['Food', -400, -450, -380],
['Transport', -150, -160, -140],
['Entertainment', -200, -250, -200],
]
for row in budget_data:
ws.append(row + [f'=SUM(B{ws.max_row + 1}:D{ws.max_row + 1})'])
# Total row
ws.append(['TOTAL',
f'=SUM(B2:B{ws.max_row})',
f'=SUM(C2:C{ws.max_row})',
f'=SUM(D2:D{ws.max_row})',
f'=SUM(E2:E{ws.max_row})'
])
# Formatting
header_fill = PatternFill('solid', fgColor='366092')
header_font = Font(bold=True, color='FFFFFF')
for cell in ws[1]:
cell.fill
Установить xlsx-manipulation в Claude Code и Claude Desktop
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Разрешённые инструменты
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Без ограничений — скилл может использовать любой инструмент.
FAQ
Что делает скилл xlsx-manipulation?
Create, edit, and manipulate Excel spreadsheets programmatically using openpyxl
Как установить скилл xlsx-manipulation?
Скопируй папку скилла в ~/.claude/skills (вкладка Claude Code выше делает это одной командой), либо поставь как плагин.
Скилл xlsx-manipulation запускает скрипты?
Нет, скилл состоит только из инструкций (SKILL.md), без исполняемых скриптов.
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