/**
 * Compute the parameter values `t` at which a cubic Hermite spline reaches its
 * minimum and maximum on `[0, 1]`. `t_at_min` is written to
 * `result[result_offset]`, `t_at_max` to `result[result_offset + result_stride]`.
 * Both values lie in `[0, 1]`.
 *
 * Companion to {@link spline3_hermite_bounds}, which writes the values; this
 * one writes the parameters at which those values are reached. Either function
 * does its own critical-point search — call whichever you actually need.
 *
 * @param {number[]|Float32Array|Float64Array} result
 * @param {number} result_offset
 * @param {number} result_stride
 * @param {number} p0
 * @param {number} p1
 * @param {number} m0
 * @param {number} m1
 *
 * @author Alex Goldring
 * @copyright Company Named Limited (c) 2025
 */
export function spline3_hermite_bounds_t(result: number[] | Float32Array | Float64Array, result_offset: number, result_stride: number, p0: number, p1: number, m0: number, m1: number): void;
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