2026-04-18 10:24:36

🌱 I Built a Carbon Footprint Tracker for Earth Day — Here's What I Learned (and How Copilot Saved Me)

This is a submission for the DEV Weekend Challenge: Earth Day Edition.

🤔 Why a Carbon Footprint Calculator?

When I saw the "Build for the Planet" prompt, I knew I wanted to create something that could actually help people take climate action. The problem? Most carbon calculators are either too simplistic (3 questions) or buried in corporate sustainability reports.

I wanted to build a tool that is:

• Personal – tailored to real lifestyle choices
• Visual – charts that make data digestible
• Actionable – recommendations with concrete CO₂ savings
• Private – no sign-up required, but optional cloud sync

That's how EcoTrack Pro was born.

👉 Live Demo: ecotrack-pro.vercel.app

👉 GitHub Repo: github.com/setuju/ecotrack

🛠️ The Tech Stack (No Framework, Just Vanilla)

I deliberately chose a zero-build, vanilla JavaScript stack to keep the project lean and deployable anywhere.

• Frontend: HTML5, CSS3 (Glassmorphism + CSS Grid/Flexbox), Vanilla JS
• Charts: Chart.js (both pie and bar charts)
• Backend/Storage: Supabase (PostgreSQL) with anonymous device‑ID sync
• Icons: Font Awesome
• Dev Server: Python's http.server (yes, really)

Why no React/Vue? Because I wanted this to be accessible to anyone who opens index.html — no node_modules required.

🧠 The Hardest Parts (And How I Solved Them)

1. Making the Calculator Accurate Without Being Overwhelming

I needed 15+ inputs (car, flights, meat, recycling, streaming, etc.) but didn't want to scare users away.

Solution: Grouped inputs into collapsible sections and provided sensible defaults (based on average global behavior). The emission factors come from peer‑reviewed sources (IPCC, EPA, Poore & Nemecek Science 2018).

2. Anonymous Cloud Sync Without Login

I wanted users to save their history across devices without creating an account.

Solution: Generate a persistent device_id stored in localStorage. If the user accepts cookies, the ID and footprint data are sent to Supabase. Row‑Level Security allows inserts and selects based on that ID. Privacy‑first, zero personal data.

3. Chart.js "Undefined" Nightmare

When toggling between pie and bar charts, I kept getting undefined labels or broken animations.

Solution: Properly destroy the previous chart instance before creating a new one, and ensure the canvas context is fresh. (This took way too many console.logs.)

🤖 How GitHub Copilot Became My Pair Programmer

I used GitHub Copilot extensively throughout this project, and it genuinely cut my development time in half. Here's exactly where it shined:

Without Copilot, I would have spent hours looking up API docs and writing boilerplate.

With Copilot, I focused on architecture and user experience.

🏆 Prize Category: Best Use of GitHub Copilot

📸 Screenshots

The apps	Calculator

Results panel showing total footprint, comparison metrics, interactive chart, and personalized recommendations.

💡 What I Learned

1. Simplicity wins. Users don't want 50 questions — they want 10 meaningful ones with instant feedback.
2. Anonymous sync is underrated. Not every app needs email/password. Device IDs work great for low‑stakes data.
3. Copilot is a force multiplier. It doesn't replace thinking, but it eliminates the boring parts.
4. Earth Day matters. Building this made me more conscious of my own footprint — I've already switched to a green energy provider!

🚀 Try It Yourself

1. Visit ecotrack-pro.netlify.app/
2. Enter your weekly habits (takes ~2 minutes)

A special thanks to the DEV Community team and the judges of the Weekend Challenge for organizing this inspiring event. It's a privilege to build alongside such a talented community.

1. Get your footprint + tailored tips
2. Share your result and challenge a friend!

🔮 What's Next?

• [ ] Add more countries (currently 10)
• [ ] Real‑time electricity grid API (instead of static averages)
• [ ] Leaderboard of most improved footprints (anonymized)
• [ ] PWA support for offline use

❤️ Thank You

If you found this useful, please drop a ⭐ on GitHub — it means a lot!

Let's build a greener web, one line of code at a time. 🌍

This is a submission for the DEV Weekend Challenge: Earth Day Edition.

2026-04-18 10:23:51

I built a free Java practice platform because everything else was broken

After helping a few friends learn Java, I kept hitting the same wall:

Every “practice Java online” site is either:

• paywalled
• full of ads
• or only focused on LeetCode-style puzzles that don’t actually help you write Java

So I built Java Practice Lab — a free, no-signup playground with:

• 250+ real-world Java problems
• Monaco-based editor
• standalone Java 17 online compiler

This post is half a write-up of what I learned, half a resource dump for anyone learning Java in 2026.

What’s inside

1. A real Java practice playground

Not just “reverse a string.”

You’ll find real scenarios:

• bank account validators
• inventory managers
• log parsers
• email normalizers

Try the Playground

2. A standalone Java 17 online compiler

Think Programiz / OnlineGDB — but lighter.

• No ads
• Stdin support
• Execution time displayed
• Monaco editor with Java IntelliSense

Open the Java Compiler

3. Topic-focused tutorial pages

Hand-written. No AI fluff.

• Java Arrays — full guide + 15 problems
• Java Strings — full guide
• Java Recursion — full guide
• Java OOP — full guide

4. Beginner-friendly landing pages

• Java for Beginners — start here if you've never written public static void main
• Java Practice Online — curated problem categories
• Java Exercises — exercise-style drills

5. A blog with deeper guides

• Complete Java Roadmap for 2026
• How to Learn DSA in Java — practical guide
• Top 50 Java Interview Questions for 2026
• Java vs Python in 2026 — which should a beginner pick?
• 10 Mistakes Every Java Beginner Makes
• Java Arrays — Complete Tutorial

Full index: https://java-practice-lab.vercel.app/blog

6. Gamification that actually helps

• 7-day streaks
• Daily random challenge
• 17+ achievements unlocked silently
• Bookmarks + spaced repetition (SM-2 algorithm)

All progress is stored in localStorage.

No accounts.
No emails.
Nothing to lose.

You may ask why I built this instead of using existing platforms

Here’s a quick, honest comparison from someone who used all of them:

The goal isn’t to replace them.

It’s to be the tab you always keep open while learning.

What I learned building this

1. Judge0 CE is a lifesaver

• Best free code execution API right now
• Piston got rate-limited hard in 2025
• Sphere Engine → paid
• Judge0 CE → stable + flexible

2. Monaco Editor is worth it

It feels heavy…

…until you try switching away and miss IntelliSense instantly.

3. localStorage-only apps are underrated

No auth means:

• no backend complexity
• no GDPR headaches
• no user churn issues

Just pure usage.

4. SEO for dev tools is simple (but ignored)

Most people overcomplicate it.

Reality:

Write the tutorial people are already searching for → link your tool inside it

Don’t fight Google. Feed it.

If you want to try it

No signup.
No install.
Nothing to download.

Here is the Link: https://java-practice-lab.vercel.app

Where to start

• Total beginner → Java for Beginners
• Know syntax → Playground
• Just need to run code → Compiler
• Interview prep → DSA guide

Feedback welcome

If you have:

• feature ideas
• missing topics
• problem suggestions

Drop a comment.

I read everything — and ship most reasonable ideas within a week.

Happy coding 🍵

2026-04-18 10:23:26

At L'Électron Rare we build FineFab — a local-first, multi-machine AI-native platform for manufacturing and electronics engineering. This week we open-sourced the full fine-tuning pipeline: training toolkit and output model. Here's what it looks like, and why we built it this way.
The frustration that started it
Every embedded engineer I know has the same story with generalist LLMs.
You ask GPT-4 to review an STM32 peripheral configuration and it confidently suggests a timer channel mapping that doesn't exist on that MCU family. You ask Claude to debug a SPICE .AC simulation and it hallucinates .PRINT syntax. You ask Gemini to fix a KiCad footprint and it describes Eagle shortcuts. These aren't edge cases — they're the modal failure of big generalist models in narrow technical domains.
After six months of living this in our consulting work — embedded systems for cultural and performance industries, escape rooms, live shows, industrial prototypes — we decided to do something about it.
Two public releases, one week
16/04 — KIKI-Mac_tunner (training toolkit)
MLX fine-tuning toolkit for Mac Studio, designed to distill Claude Opus reasoning into Mistral Large 123B. Apache 2.0. Runs on Apple Silicon, takes advantage of unified memory for the adapter stage.
17/04 — micro-kiki-v3 (model)
A cognitive LLM stack specialized in embedded systems engineering. Not a flat fine-tune — a routed architecture built on top of Qwen3.5-35B-A3B (MoE, 256 experts, 3B active per token).
Both Apache 2.0. The full pipeline is open, not just the artifact.
Architecture — why routed stacks instead of one big fine-tune
The design intuition is simple. Fine-tuning one monolithic model on a mixed embedded corpus smears the distinctive patterns of each sub-discipline. Training one LoRA stack per domain and picking the relevant stack(s) at inference preserves those patterns.

Domain router — classifier selects top-4 among 35 domain-specific LoRA stacks per request.
Base model — Qwen3.5-35B-A3B (MoE 256 experts, 3B active/token). LoRA rank 16 on q/k/v/o projections, top-2 routing per stack.
Null-space projection between stacks reduces catastrophic forgetting when combining domains.
Negotiator (CAMP + Catfish) arbitrates conflicting stack outputs — typical case: STM32 power-on sequencing vs. EMC suppression guidance, both technically correct but domain-priority-dependent.
Anti-bias layer (KnowBias + RBD) before output.
Aeon memory (Atlas graph + Trace log) for cross-session persistence.

Context 262K tokens, GGUF, runs on llama.cpp / Ollama / LM Studio.
35 domains covered
Conversation (chat-fr, reasoning), code (Python, TypeScript, C/C++, Rust, shell, SQL), infrastructure (Docker, DevOps, LLM-ops, ML-training), electronics (KiCad DSL, KiCad PCB, SPICE, components, power, EMC, DSP), hardware (embedded, STM32, IoT, PlatformIO), CAD (FreeCAD), web (frontend, backend), plus music-audio, math, security.
35 is pragmatic, not exhaustive. v4 will likely add RF and MEMS.
Dataset — built honestly
clemsail/micro-kiki-v3-dataset — 489K instruction-following examples, Apache 2.0.

50,116 real Claude CLI sessions captured on our 5-node P2P mesh during actual embedded consulting work (GrosMac Apple M5, Tower 28 threads, CILS i7, KXKM-AI RTX 4090, VM bootstrap).
2,529 Codex/Copilot sessions from 4 workstations.
364,045 examples from 19 filtered open-source HF datasets (CodeFeedback, French-Alpaca, Electronics StackExchange, stm32-hal-dataset, JITX open-components-database, etc.).
Opus teacher distillation for chat-fr and reasoning.
32 original curated seed sets.

Two points of honesty about this:

The Claude CLI logs come from our own work, not clients. Everything went through a filter pass before inclusion.
This is not a Meta-scale dataset. The strength is authenticity — examples map to how engineers actually use assistants in real debugging sessions. The weakness is coverage variance: some domains are thinner than others (DSP, RF, EMC).

Infrastructure — 5-node P2P mesh
The 50K+ Claude CLI examples were captured across five heterogeneous machines:
NodeHardwareRoleGrosMacApple M5, 16 GBDev + P2P bridge, LAN + TailscaleVM6.8 GB RAM, 4 CPUDocker host (29+ containers), P2P bootstrapTower31 GB RAM, 28 threadsLangfuse, LiteLLM, Piper TTS, OpenAI proxyCILS16 GB RAM, i7Ollama inference, most stable nodeKXKM-AI62 GB RAM, RTX 4090GPU inference, Unsloth, Qdrant, fine-tuning
Ed25519 auth, DHT discovery. The mesh itself is part of the product, not just a side-effect.
What I'd do differently

Routing is manual right now. You pick which LoRA adapter(s) to load based on your task. Dynamic routing (learned classifier or attention-based expert selection) is on the v4 roadmap.
Benchmark suite is internal. I have a held-out eval set and internal scores, but nothing reproducible-in-public. v4 will ship a benchmark suite you can run against the base Qwen3.5 for a reproducible comparison.
Languages: trained on French + English interleaved. Most of our customer base is francophone. If you need English-only quality, YMMV.

The meta-story
L'Électron Rare is building FineFab publicly, component by component. Related repos in the ecosystem:

Kill_LIFE — spec-first agentic methodology (BMAD agents, gates, evidence packs)
mascarade — multi-machine agentic LLM orchestration (P2P mesh, 8 providers)
KiC-AI — AI-powered PCB design assistant for KiCad
prima-cpp — distributed LLM inference, CUDA + ZMQ

Full org: github.com/L-electron-Rare.
What I want from you

Benchmarks against base Qwen3.5 / GPT-4 / Claude on embedded-specific tasks. Community runs matter more than my internal eval.
Edge cases where the router picks the wrong stack — feedback directly improves v4.
Memory/inference regressions on your hardware. Q4_K_M works cleanly on Apple Silicon 32 GB+ and RTX 4090; other configs untested.
Domains we missed. We'll add in v4.

Everything is Apache 2.0. Fork it, benchmark it, break it. That's the point.
Discussion thread open on HF: micro-kiki-v3/discussions/1.

"I would rather be a cyborg than a goddess." — Donna Haraway

2026-04-18 10:21:47

1.List Interface :

The List interface is part of java.util and extends the Collection interface. It represents an ordered sequence of elements — you can access any element by its position (index).

• It is Ordered
• It Allows duplicates
• Index-based access

import java.util.List;
import java.util.ArrayList;

List<String> fruits = new ArrayList<>();
fruits.add("Apple");
fruits.add("Banana");
fruits.add("Mango");
System.out.println(fruits.get(0)); // Output: Apple

The 2 main implementations :

Arraylist:

• Elements sit side-by-side in memory. Jump to any index instantly — like numbered boxes in a row.
• It stores elements in a contiguous block of memory, so get(5) jumps straight to position 5 — like page numbers in a book. This is called O(1) or "constant time."

-When you use ArrayList :

• You read or access elements often
• You mostly add to the end of the list
• Memory efficiency matters
• You need to iterate in order

Linkedlist:

• Each node holds the value + a pointer to next. Scattered in memory must walk the chain to find an element.

• Each element is a node that holds a pointer to the next. Inserting means just rewiring two pointers — no shifting needed. ArrayList, on the other hand, has to push every element after the insertion point one slot over.

-When you use Linkedlist :

• You insert/delete in the middle often
• You need a Queue or Deque structure
• List size changes frequently
• You process from both ends

Common List methods :

1.Add() — insert elements :

fruits.add("Grapes");           // Adds to end
fruits.add(1, "Cherry");      // Adds at index 1

2.get() & size() — access & count :

String first = fruits.get(0);  // "Apple"
int total = fruits.size();      // Total items

3.remove() — delete elements :

fruits.remove("Banana");       // Remove by value
fruits.remove(0);              // Remove by index

2026-04-18 10:07:59

Liquid syntax error: Variable '{{n, 2n}' was not properly terminated with regexp: /\}\}/

2026-04-18 10:05:12

The problem

Every time a client wanted dimensional letters — for a sign, an
installation, a storefront — I hit the same wall.

Either I had to hire a 3D modeler, or spend hours in Blender
manually extruding paths, fixing normals, and setting up tolerances
for the acrylic slot.

Neither option was good. Hiring someone adds cost and back-and-forth.
Blender works, but it's slow and overkill for something that's
essentially a parametric operation on a 2D shape.

So I built FacLet3D.

What it does

You upload any SVG file — a typeface, a logo, any vector shape — and
the app generates:

• STL files for the shell and base (ready for 3D printing or CNC)
• DXF file for the acrylic face

You control:

• Wall thickness
• Base structure (outer wall, inner wall, heights)
• Acrylic slot dimensions
• General tolerances
• Live 3D preview in the browser

No CAD knowledge needed. No Blender. No modeler.

How it works under the hood

The core challenge was parsing arbitrary SVG paths — including
compound paths, holes, and nested shapes — and turning them into
watertight solids with consistent normals.

SVG paths can be messy: overlapping subpaths, mixed winding orders,
self-intersections. Getting clean geometry out of arbitrary user input
required a lot of edge case handling.

The base and shell are generated as separate STL files so they can be
printed independently or assembled. The acrylic DXF is offset inward
by a configurable amount to account for laser kerf.

Who it's for

• Graphic designers who want to hand off production-ready files without learning CAD
• Signage makers and print shops
• Makers with 3D printers who want to fabricate dimensional lettering

Try it

Free tier available at: https://faclet3d.factorgrafico.com

Built solo. Feedback very welcome — especially from anyone who works
with signage or fabrication.