profiling-tables
Analisis statistik dan kualitas komprehensif pada tabel database dengan output profiling terstruktur. Menghasilkan statistik tingkat kolom yang disesuaikan dengan tipe data: min/maks/persentil untuk kolom numerik, metrik panjang untuk string, rentang tanggal untuk timestamp. Melakukan analisis kardinalitas untuk mengidentifikasi kolom kategorikal vs. kardinalitas tinggi serta mendeteksi distribusi yang miring. Menilai kualitas data di lima dimensi: kelengkapan (tingkat NULL), keunikan (duplikat), kesegaran (timestamp pembaruan),...
npx skills add https://github.com/astronomer/agents --skill profiling-tablesData Profile
Generate a comprehensive profile of a table that a new team member could use to understand the data.
Step 1: Basic Metadata
Query column metadata:
SELECT COLUMN_NAME, DATA_TYPE, COMMENT
FROM <database>.INFORMATION_SCHEMA.COLUMNS
WHERE TABLE_SCHEMA = '<schema>' AND TABLE_NAME = '<table>'
ORDER BY ORDINAL_POSITION
If the table name isn't fully qualified, search INFORMATION_SCHEMA.TABLES to locate it first.
Step 2: Size and Shape
Run via run_sql:
SELECT
COUNT(*) as total_rows,
COUNT(*) / 1000000.0 as millions_of_rows
FROM <table>
Step 3: Column-Level Statistics
For each column, gather appropriate statistics based on data type:
Numeric Columns
SELECT
MIN(column_name) as min_val,
MAX(column_name) as max_val,
AVG(column_name) as avg_val,
STDDEV(column_name) as std_dev,
PERCENTILE_CONT(0.5) WITHIN GROUP (ORDER BY column_name) as median,
SUM(CASE WHEN column_name IS NULL THEN 1 ELSE 0 END) as null_count,
COUNT(DISTINCT column_name) as distinct_count
FROM <table>
String Columns
SELECT
MIN(LEN(column_name)) as min_length,
MAX(LEN(column_name)) as max_length,
AVG(LEN(column_name)) as avg_length,
SUM(CASE WHEN column_name IS NULL OR column_name = '' THEN 1 ELSE 0 END) as empty_count,
COUNT(DISTINCT column_name) as distinct_count
FROM <table>
Date/Timestamp Columns
SELECT
MIN(column_name) as earliest,
MAX(column_name) as latest,
DATEDIFF('day', MIN(column_name), MAX(column_name)) as date_range_days,
SUM(CASE WHEN column_name IS NULL THEN 1 ELSE 0 END) as null_count
FROM <table>
Step 4: Cardinality Analysis
For columns that look like categorical/dimension keys:
SELECT
column_name,
COUNT(*) as frequency,
ROUND(COUNT(*) * 100.0 / SUM(COUNT(*)) OVER(), 2) as percentage
FROM <table>
GROUP BY column_name
ORDER BY frequency DESC
LIMIT 20
This reveals:
- High-cardinality columns (likely IDs or unique values)
- Low-cardinality columns (likely categories or status fields)
- Skewed distributions (one value dominates)
Step 5: Sample Data
Get representative rows:
SELECT *
FROM <table>
LIMIT 10
If the table is large and you want variety, sample from different time periods or categories.
Step 6: Data Quality Assessment
Summarize quality across dimensions:
Completeness
- Which columns have NULLs? What percentage?
- Are NULLs expected or problematic?
Uniqueness
- Does the apparent primary key have duplicates?
- Are there unexpected duplicate rows?
Freshness
- When was data last updated? (MAX of timestamp columns)
- Is the update frequency as expected?
Validity
- Are there values outside expected ranges?
- Are there invalid formats (dates, emails, etc.)?
- Are there orphaned foreign keys?
Consistency
- Do related columns make sense together?
- Are there logical contradictions?
Step 7: Output Summary
Provide a structured profile:
Overview
2-3 sentences describing what this table contains, who uses it, and how fresh it is.
Schema
| Column | Type | Nulls% | Distinct | Description |
|---|---|---|---|---|
| ... | ... | ... | ... | ... |
Key Statistics
- Row count: X
- Date range: Y to Z
- Last updated: timestamp
Data Quality Score
- Completeness: X/10
- Uniqueness: X/10
- Freshness: X/10
- Overall: X/10
Potential Issues
List any data quality concerns discovered.
Recommended Queries
3-5 useful queries for common questions about this data.