Pascal requires that real constants have either a decimal point, or an exponent (starting with the letter e or E, and officially called a scale factor), or both, in addition to the usual collection of decimal digits. If a decimal point is included it must have at least one decimal digit on each side of it. As expected, a sign (+ or -) may precede the entire number, or the exponent, or both. Exponents may not include fractional digits. Blanks may precede or follow the real constant, but they may not be embedded within it. Note that the Pascal syntax rules for real constants make no assumptions about the range of real values, and neither does this problem.
Your task in this problem is to identify legal Pascal real constants. Each line of the input data contains a candidate which you are to classify. For each line of the input, display your finding as illustrated in the example shown below. The input terminates with a line that contains only an asterisk in column one.
1.2 1. 1.0e-55 e-12 6.5E 1e-12 +4.1234567890E-99999 7.6e+12.5 99 *
1.2 is legal. 1. is illegal. 1.0e-55 is legal. e-12 is illegal. 6.5E is illegal. 1e-12 is legal. +4.1234567890E-99999 is legal. 7.6e+12.5 is illegal. 99 is illegal.
1.0 1e0 1E000000000000000004 1. .1 1e-5 1.e4 1e-5.1 1.1.1 1+e5 1e5+ 1.1e+9999999999999999999999999999 1111111111111111.111111111111111111111111e999999999999999999999999 1.2345678901234567890012345678901234567890 00000000000000012345678901234567890012345678901234567890.0 00000000000000012345678901234567890012345678901234567890
1.0 is legal. 1e0 is legal. 1E000000000000000004 is legal. 1. is illegal. .1 is illegal. 1e-5 is legal. 1.e4 is illegal. 1e-5.1 is illegal. 1.1.1 is illegal. 1+e5 is illegal. 1e5+ is illegal. 1.1e+9999999999999999999999999999 is legal. 1111111111111111.111111111111111111111111e999999999999999999999999 is legal. 1.2345678901234567890012345678901234567890 is legal. 00000000000000012345678901234567890012345678901234567890.0 is legal. 00000000000000012345678901234567890012345678901234567890 is illegal.