codesanitize

The Objective

We needed to create an HTML-based visualization of the Thirty Meter Telescope’s main mirror, composed of 492 hexagonal segments organized symmetrically in a round sample.

We started with a high-level immediate that described the construction, however quickly realized that to succeed in my objective, I might have to information the AI step-by-step.

Step 1: The Preliminary Immediate

Claude gave it a shot — however the end result wasn’t what I had in thoughts. The format was blocky and never fairly symmetric. That is after I determined to take a step-by-step strategy.

Step 2: Drawing One Hexagon

Claude generated clear D3 code to attract a single hexagon with the proper orientation and geometry. It labored — and gave me confidence within the constructing blocks.

Lesson: Begin small. Verify the muse works earlier than scaling complexity.

Step 3: Including a Second Hexagon

Claude adjusted the coordinates, inserting the second hexagon adjoining to the primary by aligning their vertical edges. The format logic was starting to emerge.

Step 4: Creating the Second Row

Preliminary makes an attempt didn’t correctly align the slanting edges.

“Oops… this doesn’t share the slanting edges with the earlier row.”

However finally, after clarifying spacing and offset logic, Claude obtained it proper.

Lesson: Geometry-based layouts typically require a number of iterations with cautious visible inspection.

Step 5: Increasing right into a Symmetric Construction

“Now we have to create larger construction with extra hexagons organized in additional rows such that:
The general construction seems round like honeycomb.
The variety of hexagons within the rows goes on growing after which goes on reducing to kind a wonderfully symmetric construction.
The entire variety of hexagons must be 492 to match the TMT telescope.
We will have an empty hexagon (exhibiting empty area) precisely on the heart of the circle.”

Claude used a ring-based format strategy to simulate round symmetry. However at first:

“This isn’t round however appears extra like a hexagonal total view…”

Then I urged:

“Strive with solely 6 hexagons within the first and final row.”

This transformation improved symmetry and helped obtain a visually round format. The variety of hexagons per row elevated after which decreased — precisely as desired.

Step 6: Tuning the Central Opening

“That is higher however we want a smaller opening on the heart.The black area on the heart is just too massive. It needs to be at most 1 or just a few hexagons.”

By lowering the empty area and rebalancing the inside rings, we lastly obtained a well-packed, round construction with a small central hole — matching the TMT design.

Lesson: Use domain-specific constraints (like whole depend = 492) as guideposts for format parameters.

Step 7: Including Numbering and Tooltips

“We need to have a quantity on every hexagonal phase. They need to be numbered sequentially. The primary within the first row needs to be 1 and the final within the final row needs to be 492. After we present the hexagonal phase data on mouseover, we must always present the quantity as properly.”

Claude initially assigned numbers primarily based on ring index, not row order.

“You might be producing numbers primarily based on place within the ring… However the numbering needs to be row-based. So we must always one way or the other map the rings to the row. For instance, Ring 13 phase quantity 483 is in row 1 and needs to be numbered 1, and many others. Are you able to recommend a method to map segments from rings to rows this fashion?”

As soon as this mapping was applied, every little thing fell into place:

• A round format of 492 numbered segments
• A small central hole
• Tooltips exhibiting phase metadata
• Visible symmetry from outer to inside rings

Reflections

This expertise taught me a number of key classes:

1. LLMs make it easier to get on with it: Even with zero information of D3.js or SVG geometry, I might begin constructing instantly. The AI scaffolded the coding, and I discovered via the method.
2. Prompting is iterative: My first immediate wasn’t improper — it simply wasn’t particular sufficient. By reviewing the output at every step, clarified what I actually needed and refined my asks accordingly.
3. LLMs unlock studying via constructing: Ultimately, I did not simply get a working UI. I obtained an comprehensible codebase and a hands-on entry level into a brand new know-how. Constructing first and studying from it.

Conclusion

What began as a obscure design thought changed into a functioning, symmetric, interactive visualization of the Thirty Meter Telescope’s mirror — constructed collaboratively with an LLM.

This expertise reaffirmed that prompt-driven improvement is not nearly producing code — it is about considering via design, clarifying intent, and constructing your manner into understanding.

In case you’ve ever needed to discover a brand new know-how, construct a UI, or deal with a domain-specific visualization — do not wait to study all of it first.

Begin constructing with an LLM. You will study alongside the way in which.