The [negaFibonacci numbers][fibonacci-number] are the integer sequence

$NegaFibonacci sequence$

The sequence is defined by the recurrence relation

$NegaFibonacci sequence recurrence relation$

which yields

$NegaFibonacci relationship to Fibonacci numbers$

with seed values `F_0 = 0` and `F_{-1} = 1`.

## Usage ```javascript var negafibonacci = require( '@stdlib/math/base/special/negafibonacci' ); ``` #### negafibonacci( n ) Computes the nth [negaFibonacci number][fibonacci-number]. ```javascript var v = negafibonacci( 0 ); // returns 0 v = negafibonacci( -1 ); // returns 1 v = negafibonacci( -2 ); // returns -1 v = negafibonacci( -3 ); // returns 2 v = negafibonacci( -78 ); // returns -8944394323791464 ``` If `n < -78`, the function returns `NaN`, as larger [negaFibonacci numbers][fibonacci-number] cannot be safely represented in [double-precision floating-point format][ieee754]. ```javascript var v = negafibonacci( -79 ); // returns NaN ``` If not provided a nonpositive integer value, the function returns `NaN`. ```javascript var v = negafibonacci( -3.14 ); // returns NaN v = negafibonacci( 1 ); // returns NaN ``` If provided `NaN`, the function returns `NaN`. ```javascript var v = negafibonacci( NaN ); // returns NaN ```

## Examples ```javascript var negafibonacci = require( '@stdlib/math/base/special/negafibonacci' ); var v; var i; for ( i = 0; i > -79; i-- ) { v = negafibonacci( i ); console.log( v ); } ```