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Constants ¶
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Variables ¶
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Functions ¶
func BigToCompact ¶
BigToCompact converts a whole number N to a compact representation using an unsigned 32-bit number. The compact representation only provides 23 bits of precision, so values larger than (2^23 - 1) only encode the most significant digits of the number. See CompactToBig for details.
func CompactToBig ¶
CompactToBig converts a compact representation of a whole number N to an unsigned 32-bit number. The representation is similar to IEEE754 floating point numbers. Like IEEE754 floating point, there are three basic components: the sign, the exponent, and the mantissa. They are broken out as follows:
- the most significant 8 bits represent the unsigned base 256 exponent
- bit 23 (the 24th bit) represents the sign bit
- the least significant 23 bits represent the mantissa ------------------------------------------------- | Exponent | Sign | Mantissa | ------------------------------------------------- | 8 bits [31-24] | 1 bit [23] | 23 bits [22-00] | -------------------------------------------------
The formula to calculate N is:
N = (-1^sign) * mantissa * 256^(exponent-3)
This compact form is only used in bitcoin to encode unsigned 256-bit numbers which represent difficulty targets, thus there really is not a need for a sign bit, but it is implemented here to stay consistent with bitcoind.
Types ¶
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