/**
 * Multi-method. Similar to {@link mod}, {@link remainder}. This version of
 * modulo uses the same logic as the standard C function `fmod` and/or the JS
 * `%` operator, yielding results with the same sign as `a`, i.e. computes
 * `a-b*trunc(a/b)`.
 *
 * @param o - output vector
 * @param a - input vector
 * @param b - input vector
 */
export declare const fmod: import("./api.js").MultiVecOpVV<number>;
/**
 * Similar to {@link mod2}, {@link remainder2}. This version of modulo uses the
 * same logic as the standard C function `fmod` and/or the JS `%` operator,
 * yielding results with the same sign as `a`, i.e. computes `a-b*trunc(a/b)`.
 *
 * @param o - output vector
 * @param a - input vector
 * @param b - input vector
 */
export declare const fmod2: import("./api.js").VecOpVV<number>;
/**
 * Similar to {@link mod3}, {@link remainder3}. This version of modulo uses the
 * same logic as the standard C function `fmod` and/or the JS `%` operator,
 * yielding results with the same sign as `a`, i.e. computes `a-b*trunc(a/b)`.
 *
 * @param o - output vector
 * @param a - input vector
 * @param b - input vector
 */
export declare const fmod3: import("./api.js").VecOpVV<number>;
/**
 * Similar to {@link mod4}, {@link remainder4}. This version of modulo uses the
 * same logic as the standard C function `fmod` and/or the JS `%` operator,
 * yielding results with the same sign as `a`, i.e. computes `a-b*trunc(a/b)`.
 *
 * @param o - output vector
 * @param a - input vector
 * @param b - input vector
 */
export declare const fmod4: import("./api.js").VecOpVV<number>;
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