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_ÿÙimport math INF = float("inf") MINUS_INF = float("-inf") NaN = float("NaN") def floatToGoString(d): d = float(d) if d == INF: return '+Inf' elif d == MINUS_INF: return '-Inf' elif math.isnan(d): return 'NaN' else: s = repr(d) dot = s.find('.') # Go switches to exponents sooner than Python. # We only need to care about positive values for le/quantile. if d > 0 and dot > 6: mantissa = '{0}.{1}{2}'.format(s[0], s[1:dot], s[dot + 1:]).rstrip('0.') return '{0}e+0{1}'.format(mantissa, dot - 1) return s