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wallacedobbs428/data-analysis

Name: data-analysis
Author: wallacedobbs428

.claude/skills/data-analysis/SKILL.md

npx skillsauth add wallacedobbs428/thecalltaker data-analysis

Clean

TrivyContainer and dependency vulnerability scanner

Clean

SemgrepStatic code analysis for vulnerabilities

Clean

mcp-scan (Snyk)Model Context Protocol security validation

Skipped

Snyk (dep)Open source security scanning

Skipped

Socket.devSupply chain security analysis

Skipped

VirusTotalMulti-engine malware detection

Skipped

CrowdStrikeAdvanced threat intelligence

Skipped

OSV-ScannerOpen Source Vulnerability database check

Skipped

OWASP Dep-Check

Data Analysis

When to use this skill

Data exploration: Understand a new dataset
Report generation: Derive data-driven insights
Quality validation: Check data consistency
Decision support: Make data-driven recommendations

Instructions

Step 1: Load and explore data

Python (Pandas):

import pandas as pd
import numpy as np

# Load CSV
df = pd.read_csv('data.csv')

# Basic info
print(df.info())
print(df.describe())
print(df.head(10))

# Check missing values
print(df.isnull().sum())

# Data types
print(df.dtypes)

SQL:

-- Inspect table schema
DESCRIBE table_name;

-- Sample data
SELECT * FROM table_name LIMIT 10;

-- Basic stats
SELECT
    COUNT(*) as total_rows,
    COUNT(DISTINCT column_name) as unique_values,
    MIN(numeric_column) as min_val,
    MAX(numeric_column) as max_val,
    AVG(numeric_column) as avg_val
FROM table_name;

Step 2: Data cleaning

# Handle missing values
df['column'].fillna(df['column'].mean(), inplace=True)
df.dropna(subset=['required_column'], inplace=True)

# Remove duplicates
df.drop_duplicates(inplace=True)

# Type conversions
df['date'] = pd.to_datetime(df['date'])
df['category'] = df['category'].astype('category')

# Remove outliers (IQR method)
Q1 = df['value'].quantile(0.25)
Q3 = df['value'].quantile(0.75)
IQR = Q3 - Q1
df = df[(df['value'] >= Q1 - 1.5*IQR) & (df['value'] <= Q3 + 1.5*IQR)]

Step 3: Statistical analysis

# Descriptive statistics
print(df['numeric_column'].describe())

# Grouped analysis
grouped = df.groupby('category').agg({
    'value': ['mean', 'sum', 'count'],
    'other': 'nunique'
})
print(grouped)

# Correlation
correlation = df[['col1', 'col2', 'col3']].corr()
print(correlation)

# Pivot table
pivot = pd.pivot_table(df,
    values='sales',
    index='region',
    columns='month',
    aggfunc='sum'
)

Step 4: Visualization

import matplotlib.pyplot as plt
import seaborn as sns

# Histogram
plt.figure(figsize=(10, 6))
df['value'].hist(bins=30)
plt.title('Distribution of Values')
plt.savefig('histogram.png')

# Boxplot
plt.figure(figsize=(10, 6))
sns.boxplot(x='category', y='value', data=df)
plt.title('Value by Category')
plt.savefig('boxplot.png')

# Heatmap (correlation)
plt.figure(figsize=(10, 8))
sns.heatmap(correlation, annot=True, cmap='coolwarm')
plt.title('Correlation Matrix')
plt.savefig('heatmap.png')

# Time series
plt.figure(figsize=(12, 6))
df.groupby('date')['value'].sum().plot()
plt.title('Time Series of Values')
plt.savefig('timeseries.png')

Step 5: Derive insights

# Top/bottom analysis
top_10 = df.nlargest(10, 'value')
bottom_10 = df.nsmallest(10, 'value')

# Trend analysis
df['month'] = df['date'].dt.to_period('M')
monthly_trend = df.groupby('month')['value'].sum()
growth = monthly_trend.pct_change() * 100

# Segment analysis
segments = df.groupby('segment').agg({
    'revenue': 'sum',
    'customers': 'nunique',
    'orders': 'count'
})
segments['avg_order_value'] = segments['revenue'] / segments['orders']

Output format

Analysis report structure

# Data Analysis Report

## 1. Dataset overview
- Dataset: [name]
- Records: X,XXX
- Columns: XX
- Date range: YYYY-MM-DD ~ YYYY-MM-DD

## 2. Key findings
- Insight 1
- Insight 2
- Insight 3

## 3. Statistical summary
| Metric | Value |
|------|-----|
| Mean | X.XX |
| Median | X.XX |
| Std dev | X.XX |

## 4. Recommendations
1. [Recommendation 1]
2. [Recommendation 2]

Best practices

Understand the data first: Learn structure and meaning before analysis
Incremental analysis: Move from simple to complex analyses
Use visualization: Use a variety of charts to spot patterns
Validate assumptions: Always verify assumptions about the data
Reproducibility: Document analysis code and results

Constraints

Required rules (MUST)

Preserve raw data (work on a copy)
Document the analysis process
Validate results

Prohibited (MUST NOT)

Do not expose sensitive personal data
Do not draw unsupported conclusions

References

Pandas Documentation
Matplotlib Gallery
Seaborn Tutorial

Examples

Example 1: Basic usage

Example 2: Advanced usage

wallacedobbs428/data-analysis

.claude/skills/data-analysis/SKILL.md

Analyze datasets to extract insights, identify patterns, and generate reports. Use when exploring data, creating visualizations, or performing statistical analysis. Handles CSV, JSON, SQL queries, and Python pandas operations.

development

Updated Apr 16, 2026

$ install --global

skillsauth

npx skillsauth add wallacedobbs428/thecalltaker data-analysis

Install this skill globally with one command. Works with Claude Code, Cursor, and Windsurf.

Security Scan Results

3 of 9 scanners reported clean

Some scanners were skipped, did not run, or reported a non-clean status. Review each row below.

Scanners Passed

Scanners in report

Clean

TrivyContainer and dependency vulnerability scanner

95%

Clean

SemgrepStatic code analysis for vulnerabilities

95%

Clean

mcp-scan (Snyk)Model Context Protocol security validation

95%

Skipped

Snyk (dep)Open source security scanning

50%

Skipped

Socket.devSupply chain security analysis

50%

Skipped

VirusTotalMulti-engine malware detection

50%

Skipped

CrowdStrikeAdvanced threat intelligence

50%

Skipped

OSV-ScannerOpen Source Vulnerability database check

50%

Skipped

OWASP Dep-Check

50%

Last scanned: Apr 6, 2026, 11:31 AM41.9s1 file scanned

SKILL.md

name:: data-analysis
description:: Analyze datasets to extract insights, identify patterns, and generate reports. Use when exploring data, creating visualizations, or performing statistical analysis. Handles CSV, JSON, SQL queries, and Python pandas operations.
allowed-tools:: Read Grep Glob Bash
tags:: data, analysis, pandas, statistics, visualization, csv, sql
platforms:: Claude, ChatGPT, Gemini

Data Analysis

When to use this skill

Data exploration: Understand a new dataset
Report generation: Derive data-driven insights
Quality validation: Check data consistency
Decision support: Make data-driven recommendations

Instructions

Step 1: Load and explore data

Python (Pandas):

import pandas as pd
import numpy as np

# Load CSV
df = pd.read_csv('data.csv')

# Basic info
print(df.info())
print(df.describe())
print(df.head(10))

# Check missing values
print(df.isnull().sum())

# Data types
print(df.dtypes)

SQL:

-- Inspect table schema
DESCRIBE table_name;

-- Sample data
SELECT * FROM table_name LIMIT 10;

-- Basic stats
SELECT
    COUNT(*) as total_rows,
    COUNT(DISTINCT column_name) as unique_values,
    MIN(numeric_column) as min_val,
    MAX(numeric_column) as max_val,
    AVG(numeric_column) as avg_val
FROM table_name;

Step 2: Data cleaning

# Handle missing values
df['column'].fillna(df['column'].mean(), inplace=True)
df.dropna(subset=['required_column'], inplace=True)

# Remove duplicates
df.drop_duplicates(inplace=True)

# Type conversions
df['date'] = pd.to_datetime(df['date'])
df['category'] = df['category'].astype('category')

# Remove outliers (IQR method)
Q1 = df['value'].quantile(0.25)
Q3 = df['value'].quantile(0.75)
IQR = Q3 - Q1
df = df[(df['value'] >= Q1 - 1.5*IQR) & (df['value'] <= Q3 + 1.5*IQR)]

Step 3: Statistical analysis

# Descriptive statistics
print(df['numeric_column'].describe())

# Grouped analysis
grouped = df.groupby('category').agg({
    'value': ['mean', 'sum', 'count'],
    'other': 'nunique'
})
print(grouped)

# Correlation
correlation = df[['col1', 'col2', 'col3']].corr()
print(correlation)

# Pivot table
pivot = pd.pivot_table(df,
    values='sales',
    index='region',
    columns='month',
    aggfunc='sum'
)

Step 4: Visualization

import matplotlib.pyplot as plt
import seaborn as sns

# Histogram
plt.figure(figsize=(10, 6))
df['value'].hist(bins=30)
plt.title('Distribution of Values')
plt.savefig('histogram.png')

# Boxplot
plt.figure(figsize=(10, 6))
sns.boxplot(x='category', y='value', data=df)
plt.title('Value by Category')
plt.savefig('boxplot.png')

# Heatmap (correlation)
plt.figure(figsize=(10, 8))
sns.heatmap(correlation, annot=True, cmap='coolwarm')
plt.title('Correlation Matrix')
plt.savefig('heatmap.png')

# Time series
plt.figure(figsize=(12, 6))
df.groupby('date')['value'].sum().plot()
plt.title('Time Series of Values')
plt.savefig('timeseries.png')

Step 5: Derive insights

# Top/bottom analysis
top_10 = df.nlargest(10, 'value')
bottom_10 = df.nsmallest(10, 'value')

# Trend analysis
df['month'] = df['date'].dt.to_period('M')
monthly_trend = df.groupby('month')['value'].sum()
growth = monthly_trend.pct_change() * 100

# Segment analysis
segments = df.groupby('segment').agg({
    'revenue': 'sum',
    'customers': 'nunique',
    'orders': 'count'
})
segments['avg_order_value'] = segments['revenue'] / segments['orders']

Output format

Analysis report structure

# Data Analysis Report

## 1. Dataset overview
- Dataset: [name]
- Records: X,XXX
- Columns: XX
- Date range: YYYY-MM-DD ~ YYYY-MM-DD

## 2. Key findings
- Insight 1
- Insight 2
- Insight 3

## 3. Statistical summary
| Metric | Value |
|------|-----|
| Mean | X.XX |
| Median | X.XX |
| Std dev | X.XX |

## 4. Recommendations
1. [Recommendation 1]
2. [Recommendation 2]

Best practices

Understand the data first: Learn structure and meaning before analysis
Incremental analysis: Move from simple to complex analyses
Use visualization: Use a variety of charts to spot patterns
Validate assumptions: Always verify assumptions about the data
Reproducibility: Document analysis code and results

Constraints

Required rules (MUST)

Preserve raw data (work on a copy)
Document the analysis process
Validate results

Prohibited (MUST NOT)

Do not expose sensitive personal data
Do not draw unsupported conclusions

References

Pandas Documentation
Matplotlib Gallery
Seaborn Tutorial

Examples

Example 1: Basic usage

Example 2: Advanced usage

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Install manually

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# Clone the repo
git clone https://github.com/wallacedobbs428/thecalltaker.git

# Copy into Claude Code skills folder (global)
cp -r thecalltaker/.claude/skills/data-analysis ~/.claude/skills/

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Repository

wallacedobbs428/thecalltaker

Compatible with

Claude Code

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ChatGPT