# pray-calc A high-precision prayer times calculator using [NREL-SPA](https://midcdmz.nrel.gov/spa/) (Solar Position Algorithm) and a **dynamic Fajr and Isha angle algorithm**, refined with empirical data and machine learning. Also supports traditional static-angle methods for comparison. **Live Demo**: [PrayCalc.com](https://praycalc.com) **Documentation & Wiki**: [PrayCalc.net](https://praycalc.net) > 📌 This library is in active development and is currently in **beta**. Please test and submit feedback or issues, inshaa’ Allah. --- ## 🚀 Version 1.7 Highlights Version 1.7 introduces major improvements: - ✅ **Fixed a bug in the core NREL-SPA JavaScript implementation** that caused times to be off by up to several minutes. - ✅ **Custom dynamic angle calculation** has been completely rewritten using scientific modeling, atmospheric inputs, and ML-trained empirical data. It now generates Fajr and Isha angles that are accurate across all locations and seasons, instead of a simple offset from 18°. Traditional calculators (based on `suncalc` or fixed-angle approximations) are known to have timing errors of **2–7 minutes or more**, especially at higher latitudes. Our implementation aims for sub-minute accuracy by default. --- ## 📦 Installation ```bash npm install pray-calc ``` --- ## 🛠️ Usage Example ```js const { getTimes, calcTimesAll } = require('pray-calc'); // Example for New York City (minimal params) const date = new Date('2024-01-01T00:00:00Z'); const city = "New York"; const lat = 40.7128; const lng = -74.006; const tz = -5; // Full example for Jakarta: /* const city = "Jakarta"; const lat = -6.2088; const lng = 106.8456; const tz = 7; const elevation = 18; const temperature = 26.56; const pressure = 1017; */ const get = getTimes(date, lat, lng); // Minimal args const calc = calcTimesAll(date, lat, lng, tz); // Full formatting console.log(`\nTest: ${city} on ${date.toISOString()}:\n`); console.log("getTimes =", get, "\n"); console.log("calcTimesAll =", calc, "\n"); ``` --- ## 🔧 Functions Overview ### `getTimes(date, lat, lng, tz?, elevation?, temperature?, pressure?, standard?)` Returns prayer times as **decimal/fractional hours** using dynamic twilight angles. ### `calcTimesAll(date, lat, lng, tz?, elevation?, temperature?, pressure?)` Returns prayer times as **formatted HH:MM:SS** and includes traditional methods under a `.methods` key. ### `getMoon(date, accuracy = false)` Returns: - `fraction` – moon illumination (0–1) - `phase` – moon phase (e.g., Full Moon) - `angle` – angle from the sun (for visibility estimation) Helpful for determining moon visibility after Maghrib. --- ## 🔢 Parameters - `date`: JavaScript `Date` object - `lat`: Latitude (decimal degrees) - `lng`: Longitude (decimal degrees) - `tz`: Timezone offset from UTC (optional, defaults to `Date` object) - `elevation`: Meters above sea level (default: 50) - `temperature`: Ambient °C (default: 15) - `pressure`: mbar / hPa (default: 1013.25) - `standard`: true = Shāfiʿī (Asr shadow = 1), false = Ḥanafī (shadow = 2) --- ## 📚 Static vs. Dynamic Methods The `All` functions return both: - The **custom dynamic method** (default) - Multiple **legacy methods**: - Muslim World League (MWL) - Egyptian General Authority of Survey (EGAS) - ISNA, Umm al-Qura, Gulf, etc. This lets developers compare traditional fixed-angle results to the more accurate dynamic calculation. --- ## 🤝 Contributing Contributions, observations, and validations are welcome! - GitHub: [acamarata/pray-calc](https://github.com/acamarata/pray-calc) - NREL-SPA JS Engine: [acamarata/nrel-spa](https://github.com/acamarata/nrel-spa) --- ## 🧪 Accuracy Notes This package is built for high-precision use cases: - Real-time applications (e.g., adhan clocks) - Scientific Islamic astronomy - High-latitude and seasonal edge-case handling All core calculations use **NREL-SPA** and angles dynamically generated to match observable twilight. --- ## 📄 License [MIT License](./LICENSE)