원클릭으로
excel-debug-extraction
Iteratively debug Excel structure with exploratory scripts before writing extraction logic
Codex 또는 Claude로 설치 이 Prompt를 복사해 Codex, Claude 또는 다른 어시스턴트에 붙여 넣으면 Skill 페이지를 검토하고 설치를 진행할 수 있습니다.
메뉴
Iteratively debug Excel structure with exploratory scripts before writing extraction logic
Codex 또는 Claude로 설치 이 Prompt를 복사해 Codex, Claude 또는 다른 어시스턴트에 붙여 넣으면 Skill 페이지를 검토하고 설치를 진행할 수 있습니다.
SOC 직업 분류 기준
Delegate tasks to OpenSpace — a full-stack autonomous worker for coding, DevOps, web research, and desktop automation, backed by an extensive MCP tool and skill library. Skills auto-improve through use, reducing token consumption over time. A cloud community lets agents share and collectively evolve reusable skills.
Incremental audio production with duration mismatch handling, adaptive stem extension, and pre-mix alignment verification
Audio production with diagnostic analysis, timecode parsing from documents, and verified export workflow
Incremental audio production with duration alignment handling, per-stem verification, and adaptive extension strategies
Step-by-step audio production with per-stem verification, timing alignment, and incremental quality gates
End-to-end audio production workflow with stems, effects, archiving, and verification
| name | excel-debug-extraction |
| description | Iteratively debug Excel structure with exploratory scripts before writing extraction logic |
When working with poorly-structured, complex, or unfamiliar Excel files, use this iterative debugging approach to map the data layout before writing your final extraction logic.
Before writing extraction logic, create a debug script to explore the file structure:
# debug_structure.py
from openpyxl import load_workbook
wb = load_workbook('file.xlsx')
print(f"Sheets: {wb.sheetnames}")
for sheet_name in wb.sheetnames:
ws = wb[sheet_name]
print(f"\n=== Sheet: {sheet_name} ===")
print(f"Dimensions: {ws.dimensions}")
# Print first 10 rows to understand header structure
for row in ws.iter_rows(min_row=1, max_row=10, values_only=True):
print([str(cell)[:50] for cell in row])
Identify where key data fields are located:
# debug_columns.py
from openpyxl import load_workbook
wb = load_workbook('file.xlsx')
ws = wb['Sheet1']
# Examine header row to find column indices
header_row = 1
column_map = {}
for col in ws.iter_cols(min_row=header_row, max_row=header_row):
for cell in col:
if cell.value:
column_map[str(cell.value)] = cell.column_letter
print("Column mapping:", column_map)
# Sample data rows to verify structure
for row_num in range(2, min(6, ws.max_row + 1)):
row_data = [ws.cell(row=row_num, column=col).value
for col in range(1, ws.max_column + 1)]
print(f"Row {row_num}: {row_data}")
Understand how data rows are structured (e.g., summary rows, detail rows, blank separators):
# debug_rows.py
from openpyxl import load_workbook
wb = load_workbook('file.xlsx')
ws = wb['Sheet1']
row_types = []
for row_num in range(1, min(30, ws.max_row + 1)):
row_values = [ws.cell(row=row_num, column=col).value
for col in range(1, ws.max_column + 1)]
non_empty = sum(1 for v in row_values if v is not None and str(v).strip())
# Classify row type
if non_empty == 0:
row_type = "blank"
elif non_empty == 1:
row_type = "summary/label"
elif non_empty == ws.max_column:
row_type = "full_data"
else:
row_type = "partial"
row_types.append((row_num, row_type, row_values[:5]))
for rt in row_types:
print(f"Row {rt[0]} ({rt[1]}): {rt[2]}")
Before writing extraction logic, summarize:
Incorporate findings into your final processing script:
# extract_data.py
from openpyxl import load_workbook
import pandas as pd
wb = load_workbook('file.xlsx')
ws = wb['Sheet1']
# Use column mappings from debug phase
STORE_COL = 'B' # Column 2
WEEK1_COL = 'D' # Column 4
WEEK2_COL = 'E' # Column 5
# Skip header rows and summary rows based on debug findings
data_rows = []
for row_num in range(5, ws.max_row + 1): # Start after header based on debug
# Skip summary/blank rows
if ws.cell(row=row_num, column=2).value is None:
continue
if 'TOTAL' in str(ws.cell(row=row_num, column=2).value).upper():
continue
row_data = {
'store': ws.cell(row=row_num, column=2).value,
'week1': ws.cell(row=row_num, column=4).value,
'week2': ws.cell(row=row_num, column=5).value,
}
data_rows.append(row_data)
df = pd.DataFrame(data_rows)
print(df.head())
Use descriptive names for debug scripts:
debug_structure.py - Overall file/sheet structuredebug_columns.py - Column positions and headersdebug_rows.py - Row patterns and data boundariesdebug_values.py - Value patterns and edge casesKeep debug scripts alongside your extraction script for maintainability.