declare const np: { (template: number | boolean | any[] | TemplateStringsArray, ...variables: any[]): any; NDArray: typeof import("../NDArray").NDArray; tolist(template: number | boolean | any[] | TemplateStringsArray, ...variables: any[]): any; fromlist: typeof import("../array/js-interface").fromlist; ravel: typeof import("../array/basic").ravel; reshape: typeof import("../array/basic").reshape; array: typeof import("../array/_globals").array; asarray: typeof import("../array/_globals").asarray; sum: import("../array/kwargs").Func_a_axis_keepdims.Wrapper; product: import("../array/kwargs").Func_a_axis_keepdims.Wrapper; prod: import("../array/kwargs").Func_a_axis_keepdims.Wrapper; any: import("../array/kwargs").Func_a_axis_keepdims.Wrapper; all: import("../array/kwargs").Func_a_axis_keepdims.Wrapper; max: import("../array/kwargs").Func_a_axis_keepdims.Wrapper; min: import("../array/kwargs").Func_a_axis_keepdims.Wrapper; argmax: import("../array/kwargs").Func_a_axis_keepdims.Wrapper; argmin: import("../array/kwargs").Func_a_axis_keepdims.Wrapper; mean: import("../array/kwargs").Func_a_axis_keepdims.Wrapper; norm: import("../array/kwargs").Func_a_ord_axis_keepdims.Wrapper; var: import("../array/kwargs").Func_a_axis_ddof_keepdims.Wrapper; std: import("../array/kwargs").Func_a_axis_ddof_keepdims.Wrapper; transpose: typeof import("../array/transform").transpose; apply_along_axis: typeof import("../array/transform").apply_along_axis; sort: import("../array/kwargs").Func_a_lastAxis.Wrapper; concatenate: typeof import("../array/transform").concatenate; stack: typeof import("../array/transform").stack; add: import("../array/kwargs").Func_a_other_out.Wrapper; subtract: import("../array/kwargs").Func_a_other_out.Wrapper; multiply: import("../array/kwargs").Func_a_other_out.Wrapper; divide: import("../array/kwargs").Func_a_other_out.Wrapper; mod: import("../array/kwargs").Func_a_other_out.Wrapper; divide_int: import("../array/kwargs").Func_a_other_out.Wrapper; pow: import("../array/kwargs").Func_a_other_out.Wrapper; bitwise_or: import("../array/kwargs").Func_a_other_out.Wrapper; bitwise_and: import("../array/kwargs").Func_a_other_out.Wrapper; bitwise_xor: import("../array/kwargs").Func_a_other_out.Wrapper; bitwise_shift_left: import("../array/kwargs").Func_a_other_out.Wrapper; bitwise_shift_right: import("../array/kwargs").Func_a_other_out.Wrapper; greater: import("../array/kwargs").Func_a_other_out.Wrapper; less: import("../array/kwargs").Func_a_other_out.Wrapper; greater_equal: import("../array/kwargs").Func_a_other_out.Wrapper; less_equal: import("../array/kwargs").Func_a_other_out.Wrapper; equal: import("../array/kwargs").Func_a_other_out.Wrapper; not_equal: import("../array/kwargs").Func_a_other_out.Wrapper; maximum: import("../array/kwargs").Func_a_other_out.Wrapper; minimum: import("../array/kwargs").Func_a_other_out.Wrapper; logical_or: import("../array/kwargs").Func_a_other_out.Wrapper; logical_and: import("../array/kwargs").Func_a_other_out.Wrapper; atan2: import("../array/kwargs").Func_y_x_out.Wrapper; assign: (a: import("../NDArray").NDArray, values: import("../NDArray").NDArray, where: import("../array/indexes").GeneralIndexSpec[]) => import("../NDArray").NDArray; allclose: typeof import("../array/operators").allclose; isclose: typeof import("../array/operators").isclose; sign: import("../array/kwargs").Func_a_out.Wrapper; sqrt: import("../array/kwargs").Func_a_out.Wrapper; square: import("../array/kwargs").Func_a_out.Wrapper; exp: import("../array/kwargs").Func_a_out.Wrapper; log: import("../array/kwargs").Func_a_out.Wrapper; log2: import("../array/kwargs").Func_a_out.Wrapper; log10: import("../array/kwargs").Func_a_out.Wrapper; log1p: import("../array/kwargs").Func_a_out.Wrapper; sin: import("../array/kwargs").Func_a_out.Wrapper; cos: import("../array/kwargs").Func_a_out.Wrapper; tan: import("../array/kwargs").Func_a_out.Wrapper; asin: import("../array/kwargs").Func_a_out.Wrapper; acos: import("../array/kwargs").Func_a_out.Wrapper; atan: import("../array/kwargs").Func_a_out.Wrapper; cosh: import("../array/kwargs").Func_a_out.Wrapper; sinh: import("../array/kwargs").Func_a_out.Wrapper; tanh: import("../array/kwargs").Func_a_out.Wrapper; acosh: import("../array/kwargs").Func_a_out.Wrapper; asinh: import("../array/kwargs").Func_a_out.Wrapper; atanh: import("../array/kwargs").Func_a_out.Wrapper; floor: import("../array/kwargs").Func_a_out.Wrapper; ceil: import("../array/kwargs").Func_a_out.Wrapper; isnan: import("../array/kwargs").Func_a_out.Wrapper; isfinite: import("../array/kwargs").Func_a_out.Wrapper; abs: import("../array/kwargs").Func_a_out.Wrapper; bitwise_not: import("../array/kwargs").Func_a_out.Wrapper; logical_not: import("../array/kwargs").Func_a_out.Wrapper; negative: import("../array/kwargs").Func_a_out.Wrapper; round: import("../array/kwargs").Func_a_decimals_out.Wrapper; modules: { constructors: typeof import("./constructors"); grammar: typeof import("./grammar"); random: typeof import("./random"); indexing: typeof import("./indexing"); statistics: typeof import("./statistics"); }; random: typeof import("./random"); empty: typeof import("./constructors").empty; zeros: typeof import("./constructors").zeros; ones: typeof import("./constructors").ones; arange: typeof import("./constructors").arange; linspace: typeof import("./constructors").linspace; geomspace: typeof import("./constructors").geomspace; take: typeof import("./indexing").take; where: typeof import("./indexing").where; nonzero: typeof import("./indexing").nonzero; quantile: import("../array/kwargs").Func_a_q_axis.Wrapper; nanquantile: import("../array/kwargs").Func_a_q_axis.Wrapper; pi: number; e: number; }; export { np }; export declare const nd_modules: { basic: typeof import("../array/basic"); jsInterface: typeof import("../array/js-interface"); indexes: typeof import("../array/indexes"); elementwise: typeof import("../array/elementwise"); print: typeof import("../array/print"); reduce: typeof import("../array/reduce"); operators: typeof import("../array/operators"); transform: typeof import("../array/transform"); }; //# sourceMappingURL=_globals.d.ts.map