/** Face descriptor type as number array */ export type Descriptor = Array export type Options = { order?: number, threshold?: number, multiplier?: number } | undefined; /** Calculates distance between two descriptors * @param {object} options * @param {number} options.order algorithm to use * - Euclidean distance if `order` is 2 (default), Minkowski distance algorithm of nth order if `order` is higher than 2 * @param {number} options.multiplier by how much to enhance difference analysis in range of 1..100 * - default is 20 which normalizes results to similarity above 0.5 can be considered a match * @returns {number} */ export function distance(descriptor1: Descriptor, descriptor2: Descriptor, options: Options = { order: 2, multiplier: 20 }) { // general minkowski distance, euclidean distance is limited case where order is 2 let sum = 0; for (let i = 0; i < descriptor1.length; i++) { const diff = (!options.order || options.order === 2) ? (descriptor1[i] - descriptor2[i]) : (Math.abs(descriptor1[i] - descriptor2[i])); sum += (!options.order || options.order === 2) ? (diff * diff) : (diff ** options.order); } return (options.multiplier || 20) * sum; } /** Calculates normalized similarity between two face descriptors based on their `distance` * @param {object} options * @param {number} options.order algorithm to use * - Euclidean distance if `order` is 2 (default), Minkowski distance algorithm of nth order if `order` is higher than 2 * @param {number} options.multiplier by how much to enhance difference analysis in range of 1..100 * - default is 20 which normalizes results to similarity above 0.5 can be considered a match * @returns {number} similarity between two face descriptors normalized to 0..1 range where 0 is no similarity and 1 is perfect similarity */ export function similarity(descriptor1: Descriptor, descriptor2: Descriptor, options: Options = { order: 2, multiplier: 20 }) { const dist = distance(descriptor1, descriptor2, options); const root = (!options.order || options.order === 2) ? Math.sqrt(dist) : dist ** (1 / options.order); const invert = Math.max(0, 100 - root) / 100.0; return invert; } /** Matches given descriptor to a closest entry in array of descriptors * @param descriptor face descriptor * @param descriptors array of face descriptors to commpare given descriptor to * @param {object} options * @param {number} options.order see {@link similarity} * @param {number} options.multiplier see {@link similarity} * @returns {object} * - `index` index array index where best match was found or -1 if no matches * - {@link distance} calculated `distance` of given descriptor to the best match * - {@link similarity} calculated normalized `similarity` of given descriptor to the best match */ export function match(descriptor: Descriptor, descriptors: Array, options: Options = { order: 2, multiplier: 20, threshold: 0 }) { if (!Array.isArray(descriptor) || !Array.isArray(descriptors) || descriptor.length < 64 || descriptors.length === 0 || descriptor.length !== descriptors[0].length) { // validate input return { index: -1, distance: Number.POSITIVE_INFINITY, similarity: 0 }; } let best = Number.MAX_SAFE_INTEGER; let index = -1; for (let i = 0; i < descriptors.length; i++) { const res = distance(descriptor, descriptors[i], options); if (res < best) { best = res; index = i; } if (best < (options.threshold || 0)) break; } best = (!options.order || options.order === 2) ? Math.sqrt(best) : best ** (1 / options.order); return { index, distance: best, similarity: Math.max(0, 100 - best) / 100.0 }; }