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@openhps/core

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Open Hybrid Positioning System - Core component

openhps.org

OpenHPS/openhps-core

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"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.sinc = exports.pcurve = exports.parabola = exports.gain = void 0; var _OperatorNode = require("./OperatorNode.js"); var _MathNode = require("./MathNode.js"); /** * A function that remaps the `[0,1]` interval into the `[0,1]` interval. * The corners are mapped to `0` and the center to `1`. * Reference: {@link https://iquilezles.org/articles/functions/}. * * @tsl * @function * @param {Node<float>} x - The value to remap. * @param {Node<float>} k - Allows to control the remapping functions shape by rising the parabola to a power `k`. * @return {Node<float>} The remapped value. */ const parabola = (x, k) => (0, _MathNode.pow)((0, _OperatorNode.mul)(4.0, x.mul((0, _OperatorNode.sub)(1.0, x))), k); /** * A function that remaps the `[0,1]` interval into the `[0,1]` interval. * Expands the sides and compresses the center, and keeps `0.5` mapped to `0.5`. * Reference: {@link https://iquilezles.org/articles/functions/}. * * @tsl * @function * @param {Node<float>} x - The value to remap. * @param {Node<float>} k - `k=1` is the identity curve,`k<1` produces the classic `gain()` shape, and `k>1` produces "s" shaped curves. * @return {Node<float>} The remapped value. */ exports.parabola = parabola; const gain = (x, k) => x.lessThan(0.5) ? parabola(x.mul(2.0), k).div(2.0) : (0, _OperatorNode.sub)(1.0, parabola((0, _OperatorNode.mul)((0, _OperatorNode.sub)(1.0, x), 2.0), k).div(2.0)); /** * A function that remaps the `[0,1]` interval into the `[0,1]` interval. * A generalization of the `parabola()`. Keeps the corners mapped to 0 but allows the control of the shape one either side of the curve. * Reference: {@link https://iquilezles.org/articles/functions/}. * * @tsl * @function * @param {Node<float>} x - The value to remap. * @param {Node<float>} a - First control parameter. * @param {Node<float>} b - Second control parameter. * @return {Node<float>} The remapped value. */ exports.gain = gain; const pcurve = (x, a, b) => (0, _MathNode.pow)((0, _OperatorNode.div)((0, _MathNode.pow)(x, a), (0, _OperatorNode.add)((0, _MathNode.pow)(x, a), (0, _MathNode.pow)((0, _OperatorNode.sub)(1.0, x), b))), 1.0 / a); /** * A phase shifted sinus curve that starts at zero and ends at zero, with bouncing behavior. * Reference: {@link https://iquilezles.org/articles/functions/}. * * @tsl * @function * @param {Node<float>} x - The value to compute the sin for. * @param {Node<float>} k - Controls the amount of bounces. * @return {Node<float>} The result value. */ exports.pcurve = pcurve; const sinc = (x, k) => (0, _MathNode.sin)(_MathNode.PI.mul(k.mul(x).sub(1.0))).div(_MathNode.PI.mul(k.mul(x).sub(1.0))); exports.sinc = sinc;