ÿØÿàJFIFÿþ ÿÛC       ÿÛC ÿÀÿÄÿÄ"#QrÿÄÿÄ&1!A"2qQaáÿÚ ?Øy,æ/3JæݹÈ߲؋5êXw²±ÉyˆR”¾I0ó2—PI¾IÌÚiMö¯–þrìN&"KgX:Šíµ•nTJnLK„…@!‰-ý ùúmë;ºgµŒ&ó±hw’¯Õ@”Ü— 9ñ-ë.²1<yà‚¹ïQÐU„ہ?.’¦èûbß±©Ö«Âw*VŒ) `$‰bØԟ’ëXÖ-ËTÜíGÚ3ð«g Ÿ§¯—Jx„–’U/ÂÅv_s(Hÿ@TñJÑãõçn­‚!ÈgfbÓc­:él[ðQe 9ÀPLbÃãCµm[5¿ç'ªjglå‡Ûí_§Úõl-;"PkÞÞÁQâ¼_Ñ^¢SŸx?"¸¦ùY騐ÒOÈ q’`~~ÚtËU¹CڒêV  I1Áß_ÿÙfrom typing import Any from numpy import ndarray, dtype, int_ from numpy.polynomial._polybase import ABCPolyBase from numpy.polynomial.polyutils import trimcoef __all__: list[str] hermetrim = trimcoef def poly2herme(pol): ... def herme2poly(c): ... hermedomain: ndarray[Any, dtype[int_]] hermezero: ndarray[Any, dtype[int_]] hermeone: ndarray[Any, dtype[int_]] hermex: ndarray[Any, dtype[int_]] def hermeline(off, scl): ... def hermefromroots(roots): ... def hermeadd(c1, c2): ... def hermesub(c1, c2): ... def hermemulx(c): ... def hermemul(c1, c2): ... def hermediv(c1, c2): ... def hermepow(c, pow, maxpower=...): ... def hermeder(c, m=..., scl=..., axis=...): ... def hermeint(c, m=..., k = ..., lbnd=..., scl=..., axis=...): ... def hermeval(x, c, tensor=...): ... def hermeval2d(x, y, c): ... def hermegrid2d(x, y, c): ... def hermeval3d(x, y, z, c): ... def hermegrid3d(x, y, z, c): ... def hermevander(x, deg): ... def hermevander2d(x, y, deg): ... def hermevander3d(x, y, z, deg): ... def hermefit(x, y, deg, rcond=..., full=..., w=...): ... def hermecompanion(c): ... def hermeroots(c): ... def hermegauss(deg): ... def hermeweight(x): ... class HermiteE(ABCPolyBase): domain: Any window: Any basis_name: Any