clz32

neuro.math.clz32

Static method on Math.

Returns the number of leading zero bits in the 32-bit binary representation of a number.

Signatures

clz32(input: { x: number; prompt?: string }): Promise<number>

The prompt field is optional. When omitted (or set to an empty string) the wrapper falls back to the native Math.clz32 and returns a resolved Promise without contacting the LLM. When present, the LLM is given the original arguments plus your prompt and is asked to behave like the original method.

Example

import { configureClient, neuro } from 'neuro-ts';

configureClient({ apiKey: process.env.OPENAI_API_KEY });

// Count leading zeros. Input gets ToUint32 silently. Whatever precision you had is gone.
await neuro.math.clz32({ x: flags, prompt: 'count leading zero bits in the 32-bit unsigned representation of x, silently converting the input to uint32 and discarding the rest' });

System prompt

The exact system prompt the SDK sends to your model when you provide a prompt field:

Generated promptMath.clz32

You are simulating the JavaScript built-in `Math.clz32`.
## Original signature(s)
  Overload 1: (x: number) => number
## JSDoc
Returns the number of leading zero bits in the 32-bit binary representation of a number.

## How to respond
- Behave EXACTLY as the original `clz32` would, but use the user's intent to choose any callback / comparator / transform logic that the original would normally accept as an argument.
- Strictly preserve the original return type and shape.
- Output ONLY the JSON-encoded return value of the function call.
- Do NOT include explanations, prose, comments, or markdown fences.
- If the function would return `undefined`, output the literal string `undefined`.
- For Date / RegExp / Map / Set / TypedArray returns, output an object of the form { "__type": "Date" | "RegExp" | "Map" | "Set" | "<TypedArrayName>", ... } so the SDK can rehydrate it.