We can represent each decimal number, potentially with repeating decimals, as a fraction. By converting the number represented by the string into a fraction (numerator and denominator) in a consistent way, we can directly compare the fractions. This involves algebraic manipulation to handle the repeating parts.

For example, 0.1(6) can be represented as 1/6. By converting the repeating part into a fraction, you maintain precision without dealing with floating point inaccuracies. Once both numbers are represented as fractions, compare the fractions as ratios of their numerators and denominators to determine if they represent the same number.

Instead of converting into a fraction, simulate the actual number by expanding it up to a certain number of places where we are confident they will differ if they are indeed different numbers. Focus on accurately reproducing the decimal expansion including the repeating part, and use this expanded version for comparison.

You could use string manipulation to handle the repeat section and use a loop to add the repeating digits until you achieve a sufficient significant length (e.g., 20-30 digits) for a robust comparison.