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Header » compact_target
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compact_target
is the encoded form of the target threshold as it appears in the block header.
It is similar to nBits
of bitcoin, the original nBits
implementation inherits properties from a signed data class, allowing the target threshold to be negative if the high bit of the significand is set. This is useless—the header hash is treated as an unsigned number, so it can never be equal to or lower than a negative target threshold.
In CKB, the "compact" format is a representation of a whole number N using an unsigned 32bit number similar to a floating-point format.
- The most significant 8 bits are the unsigned exponent of base 256.
- This exponent can be thought of as "number of bytes of N".
- The lower 24 bits are the mantissa.
N = mantissa * 256^(exponent-3)
Python 3 Example and test vectors:
import unittest
def compact_to_target(compact):
exponent = compact >> 24
mantissa = compact & 0x00ffffff
rtn = 0
if (exponent <= 3):
mantissa >>= (8 * (3 - exponent))
rtn = mantissa
else:
rtn = mantissa
rtn <<= (8 * (exponent - 3))
overflow = mantissa != 0 and (exponent > 32)
return rtn, overflow
def target_to_compact(target):
bits = (target).bit_length()
exponent = ((bits + 7) // 8)
compact = target << (
8 * (3 - exponent)) if exponent <= 3 else (target >> (8 * (exponent - 3)))
compact = (compact | (exponent << 24))
return compact
class TestCompactTarget(unittest.TestCase):
def test_compact_target1(self):
compact = target_to_compact(0x2)
self.assertEqual('0x1020000', hex(compact))
target, overflow = compact_to_target(0x1020000)
self.assertTupleEqual((2, False), (target, overflow))
def test_compact_target2(self):
compact = target_to_compact(0xfe)
self.assertEqual('0x1fe0000', hex(compact))
target, overflow = compact_to_target(0x1fedcba)
self.assertTupleEqual((0xfe, False), (target, overflow))
if __name__ == '__main__':
unittest.main()
more https://github.com/nervosnetwork/ckb/blob/develop/util/types/src/utilities/difficulty.rs#L103