# test parsing of floats inf = float("inf") # it shouldn't matter where the decimal point is if the exponent balances the value print(float("1234") - float("0.1234e4")) print(float("1.015625") - float("1015625e-6")) # very large integer part with a very negative exponent should cancel out print("%.4e" % float("9" * 60 + "e-60")) print("%.4e" % float("9" * 60 + "e-40")) # many fractional digits print(float("." + "9" * 70)) print(float("." + "9" * 70 + "e20")) print(float("." + "9" * 70 + "e-50") == float("1e-50")) # tiny fraction with large exponent print(float("." + "0" * 60 + "1e10") == float("1e-51")) print(float("." + "0" * 60 + "9e25") == float("9e-36")) print(float("." + "0" * 60 + "9e40") == float("9e-21")) # ensure that accuracy is retained when value is close to a subnormal print(float("1.00000000000000000000e-37")) print(float("10.0000000000000000000e-38")) print(float("100.000000000000000000e-39")) # very large exponent literal print(float("1e4294967301")) print(float("1e-4294967301")) print(float("1e18446744073709551621")) print(float("1e-18446744073709551621"))