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stata-data-cleaning
Clean and transform messy data in Stata with reproducible workflows
Codex 또는 Claude로 설치 이 Prompt를 복사해 Codex, Claude 또는 다른 어시스턴트에 붙여 넣으면 Skill 페이지를 검토하고 설치를 진행할 수 있습니다.
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Clean and transform messy data in Stata with reproducible workflows
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
Structured hypothesis formulation from observations. Use when you have experimental observations or data and need to formulate testable hypotheses with predictions, propose mechanisms, and design experiments to test them. Follows scientific method framework. For open-ended ideation use scientific-brainstorming; for automated LLM-driven hypothesis testing on datasets use hypogenic.
Transforms raw user requests into structured, outcome-focused prompts for Claude Cowork. Use when the user wants to optimize or rewrite a prompt for Cowork, needs help structuring a multi-step task for autonomous execution, or says things like "optimize this Cowork prompt", "rewrite for Cowork", or "make this a Cowork prompt". Outputs a single code block with the rewritten prompt following the GOAL/CONTEXT LOADING/IDENTITY/SUCCESS CRITERIA/INPUTS/CONSTRAINTS/CHECKPOINT RULE structure.
This skill should be used when the user asks to "brainstorm research ideas", "use 5W1H framework", "identify research gaps", "conduct gap analysis", "start research project", "conduct literature review", "define research question", "select research method", "plan research", or mentions research project initiation phase. Provides comprehensive guidance for research startup workflow from idea generation to planning.
Creative research ideation and exploration. Use for open-ended brainstorming sessions, exploring interdisciplinary connections, challenging assumptions, or identifying research gaps. Best for early-stage research planning when you do not have specific observations yet. For formulating testable hypotheses from data use hypothesis-generation.
Comprehensive citation management for academic research. Search Google Scholar and PubMed for papers, extract accurate metadata, validate citations, and generate properly formatted BibTeX entries. This skill should be used when you need to find papers, verify citation information, convert DOIs to BibTeX, or ensure reference accuracy in scientific writing.
Match a pasted list of academic references against the Crossref REST API and produce a four-column markdown table (original, matched, confidence, flags) with canonical APA citations and DOIs. Use whenever the user pastes a bibliography or reference list and wants to verify, clean up, canonicalize, or find DOIs for those references — triggers include "verify bibliography", "match these references", "find DOIs for this reference list", "canonicalize my citations", "clean up the reference list against Crossref", "check these citations", or any pasted block of academic references accompanied by a request to normalize them.
| name | stata-data-cleaning |
| description | Clean and transform messy data in Stata with reproducible workflows |
| workflow_stage | data |
| compatibility | ["claude-code","cursor","codex","gemini-cli"] |
| author | Awesome Econ AI Community |
| version | 1.0.0 |
| tags | ["Stata","data-cleaning","data-wrangling","reproducibility"] |
This skill helps economists clean, transform, and prepare datasets for analysis in Stata. It emphasizes reproducibility, proper documentation, and handling common data quality issues found in economic research.
Before generating code, ask the user:
Create a Stata do-file that:
assert statements to verify data integritylabel variable/*==============================================================================
Project: Economic Analysis Data Cleaning
Author: [Your Name]
Date: [Date]
Purpose: Clean raw survey data for regression analysis
Input: raw_survey_data.dta
Output: cleaned_analysis_data.dta
==============================================================================*/
* ============================================
* 1. SETUP
* ============================================
clear all
set more off
cap log close
log using "logs/data_cleaning_`c(current_date)'.log", replace
* Set working directory
cd "/path/to/project"
* Define globals for paths
global raw_data "data/raw"
global clean_data "data/clean"
global output "output"
* ============================================
* 2. LOAD AND INSPECT RAW DATA
* ============================================
use "${raw_data}/raw_survey_data.dta", clear
* Basic inspection
describe
summarize
codebook, compact
* Check for duplicates
duplicates report id_var
duplicates list id_var if _dup > 0
* ============================================
* 3. VARIABLE CLEANING
* ============================================
* --- Rename variables for clarity ---
rename q1 age
rename q2 income_reported
rename q3 education_level
* --- Clean numeric variables ---
* Replace missing value codes with .
mvdecode age income_reported, mv(-99 -88 -77)
* Cap outliers at 99th percentile
qui sum income_reported, detail
replace income_reported = r(p99) if income_reported > r(p99) & !mi(income_reported)
* --- Clean string variables ---
* Standardize state names
replace state = upper(trim(state))
replace state = "NEW YORK" if inlist(state, "NY", "N.Y.", "N Y")
* --- Create categorical variables ---
gen education_cat = .
replace education_cat = 1 if education_level < 12
replace education_cat = 2 if education_level == 12
replace education_cat = 3 if education_level > 12 & education_level <= 16
replace education_cat = 4 if education_level > 16 & !mi(education_level)
label define edu_lbl 1 "Less than HS" 2 "High School" 3 "College" 4 "Graduate"
label values education_cat edu_lbl
* ============================================
* 4. HANDLE MISSING DATA
* ============================================
* Create missing indicator variables
gen mi_income = mi(income_reported)
* Document missingness
tab mi_income
* Count complete cases
egen complete_case = rownonmiss(age income_reported education_cat)
tab complete_case
* ============================================
* 5. CREATE DERIVED VARIABLES
* ============================================
* Age groups
gen age_group = .
replace age_group = 1 if age >= 18 & age < 30
replace age_group = 2 if age >= 30 & age < 50
replace age_group = 3 if age >= 50 & age < 65
replace age_group = 4 if age >= 65 & !mi(age)
label define age_lbl 1 "18-29" 2 "30-49" 3 "50-64" 4 "65+"
label values age_group age_lbl
* Log income
gen log_income = ln(income_reported + 1)
* ============================================
* 6. DATA VALIDATION
* ============================================
* Assert expected ranges
assert age >= 18 & age <= 120 if !mi(age)
assert income_reported >= 0 if !mi(income_reported)
* Check variable types
assert !mi(id_var)
isid id_var // Verify unique identifier
* ============================================
* 7. LABEL VARIABLES
* ============================================
label variable age "Age in years"
label variable income_reported "Annual income (USD)"
label variable education_cat "Education category"
label variable log_income "Log of annual income"
label variable mi_income "Missing income indicator"
* ============================================
* 8. FINAL CHECKS AND SAVE
* ============================================
* Keep relevant variables
keep id_var age age_group income_reported log_income ///
education_cat mi_income state year
* Order variables logically
order id_var year state age age_group income_reported ///
log_income education_cat mi_income
* Compress to minimize file size
compress
* Save cleaned data
save "${clean_data}/cleaned_analysis_data.dta", replace
* Create codebook
codebook, compact
* Close log
log close
* ============================================
* END OF FILE
* ============================================
ssc install unique // For unique value checking
ssc install mdesc // For missing data patterns
ssc install labutil // For label manipulation
clear all to ensure clean environmentassert statements to catch data errors early