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# -*- coding: utf-8 -*-
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# Copyright (c) 2018-2020 tecnovert
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# Distributed under the MIT software license, see the accompanying
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# file LICENSE or http://www.opensource.org/licenses/mit-license.php.
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import json
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import decimal
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import hashlib
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from .contrib.segwit_addr import bech32_decode, convertbits, bech32_encode
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OP_1 = 0x51
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OP_16 = 0x60
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COIN = 100000000
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def assert_cond(v, err='Bad opcode'):
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if not v:
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raise ValueError(err)
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def format8(i):
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n = abs(i)
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quotient = n // COIN
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remainder = n % COIN
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rv = "%d.%08d" % (quotient, remainder)
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if i < 0:
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rv = '-' + rv
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return rv
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def toBool(s):
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return s.lower() in ["1", "true"]
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def jsonDecimal(obj):
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if isinstance(obj, decimal.Decimal):
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return str(obj)
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raise TypeError
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def dumpj(jin, indent=4):
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return json.dumps(jin, indent=indent, default=jsonDecimal)
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def dumpje(jin):
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return json.dumps(jin, default=jsonDecimal).replace('"', '\\"')
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__b58chars = '123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz'
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def b58decode(v, length=None):
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long_value = 0
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for (i, c) in enumerate(v[::-1]):
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ofs = __b58chars.find(c)
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if ofs < 0:
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return None
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long_value += ofs * (58**i)
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result = bytes()
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while long_value >= 256:
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div, mod = divmod(long_value, 256)
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result = bytes((mod,)) + result
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long_value = div
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result = bytes((long_value,)) + result
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nPad = 0
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for c in v:
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if c == __b58chars[0]:
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nPad += 1
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else:
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break
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pad = bytes((0,)) * nPad
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result = pad + result
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if length is not None and len(result) != length:
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return None
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return result
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def b58encode(v):
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long_value = 0
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for (i, c) in enumerate(v[::-1]):
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long_value += (256**i) * c
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result = ''
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while long_value >= 58:
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div, mod = divmod(long_value, 58)
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result = __b58chars[mod] + result
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long_value = div
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result = __b58chars[long_value] + result
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# leading 0-bytes in the input become leading-1s
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nPad = 0
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for c in v:
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if c == 0:
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nPad += 1
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else:
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break
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return (__b58chars[0] * nPad) + result
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def decodeWif(network_key):
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key = b58decode(network_key)[1:-4]
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if len(key) == 33:
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return key[:-1]
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return key
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def toWIF(prefix_byte, b, compressed=True):
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b = bytes((prefix_byte, )) + b
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if compressed:
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b += bytes((0x01, ))
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b += hashlib.sha256(hashlib.sha256(b).digest()).digest()[:4]
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return b58encode(b)
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def bech32Decode(hrp, addr):
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hrpgot, data = bech32_decode(addr)
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if hrpgot != hrp:
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return None
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decoded = convertbits(data, 5, 8, False)
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if decoded is None or len(decoded) < 2 or len(decoded) > 40:
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return None
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return bytes(decoded)
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def bech32Encode(hrp, data):
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ret = bech32_encode(hrp, convertbits(data, 8, 5))
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if bech32Decode(hrp, ret) is None:
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return None
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return ret
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def decodeAddress(address_str):
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b58_addr = b58decode(address_str)
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if b58_addr is not None:
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address = b58_addr[:-4]
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checksum = b58_addr[-4:]
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assert(hashlib.sha256(hashlib.sha256(address).digest()).digest()[:4] == checksum), 'Checksum mismatch'
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return b58_addr[:-4]
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return None
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def encodeAddress(address):
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checksum = hashlib.sha256(hashlib.sha256(address).digest()).digest()
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return b58encode(address + checksum[0:4])
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def getKeyID(bytes):
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data = hashlib.sha256(bytes).digest()
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return hashlib.new("ripemd160", data).digest()
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def pubkeyToAddress(prefix, pubkey):
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return encodeAddress(bytes((prefix,)) + getKeyID(pubkey))
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def SerialiseNum(n):
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if n == 0:
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return bytes([0x00])
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if n > 0 and n <= 16:
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return bytes([0x50 + n])
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rv = bytearray()
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neg = n < 0
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absvalue = -n if neg else n
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while(absvalue):
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rv.append(absvalue & 0xff)
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absvalue >>= 8
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if rv[-1] & 0x80:
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rv.append(0x80 if neg else 0)
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elif neg:
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rv[-1] |= 0x80
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return bytes([len(rv)]) + rv
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def DeserialiseNum(b, o=0):
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if b[o] == 0:
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return 0
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if b[o] > 0x50 and b[o] <= 0x50 + 16:
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return b[o] - 0x50
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v = 0
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nb = b[o]
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o += 1
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for i in range(0, nb):
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v |= b[o + i] << (8 * i)
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# If the input vector's most significant byte is 0x80, remove it from the result's msb and return a negative.
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if b[o + nb - 1] & 0x80:
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return -(v & ~(0x80 << (8 * (nb - 1))))
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return v
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def decodeScriptNum(script_bytes, o):
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v = 0
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num_len = script_bytes[o]
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if num_len >= OP_1 and num_len <= OP_16:
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return((num_len - OP_1) + 1, 1)
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if num_len > 4:
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raise ValueError('Bad scriptnum length') # Max 4 bytes
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if num_len + o >= len(script_bytes):
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raise ValueError('Bad script length')
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o += 1
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for i in range(num_len):
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b = script_bytes[o + i]
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# Negative flag set in last byte, if num is positive and > 0x80 an extra 0x00 byte will be appended
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if i == num_len - 1 and b & 0x80:
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b &= (~(0x80) & 0xFF)
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v += int(b) << 8 * i
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v *= -1
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else:
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v += int(b) << 8 * i
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return(v, 1 + num_len)
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def getCompactSizeLen(v):
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# Compact Size
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if v < 253:
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return 1
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if v < 0xffff: # USHRT_MAX
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return 3
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if v < 0xffffffff: # UINT_MAX
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return 5
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if v < 0xffffffffffffffff: # UINT_MAX
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return 9
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raise ValueError('Value too large')
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def make_int(v, scale=8, r=0): # r = 0, no rounding, fail, r > 0 round up, r < 0 floor
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if type(v) == float:
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v = str(v)
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elif type(v) == int:
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return v * 10 ** scale
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ep = 10 ** scale
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have_dp = False
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rv = 0
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for c in v:
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if c == '.':
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rv *= ep
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have_dp = True
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continue
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if not c.isdigit():
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raise ValueError('Invalid char')
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if have_dp:
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ep //= 10
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if ep <= 0:
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if r == 0:
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raise ValueError('Mantissa too long')
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if r > 0:
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# Round up
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if int(c) > 4:
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rv += 1
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break
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rv += ep * int(c)
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else:
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rv = rv * 10 + int(c)
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if not have_dp:
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rv *= ep
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return rv
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def validate_amount(amount, scale=8):
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str_amount = str(amount)
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has_decimal = False
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for c in str_amount:
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if c == '.' and not has_decimal:
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has_decimal = True
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continue
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if not c.isdigit():
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raise ValueError('Invalid amount')
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ar = str_amount.split('.')
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if len(ar) > 1 and len(ar[1]) > scale:
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raise ValueError('Too many decimal places in amount {}'.format(str_amount))
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return True
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def format_amount(i, display_scale, scale=None):
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if not isinstance(i, int):
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raise ValueError('Amount must be an integer.') # Raise error instead of converting as amounts should always be integers
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if scale is None:
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scale = display_scale
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ep = 10 ** scale
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n = abs(i)
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quotient = n // ep
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remainder = n % ep
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if display_scale != scale:
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remainder %= (10 ** display_scale)
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rv = '{}.{:0>{scale}}'.format(quotient, remainder, scale=display_scale)
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if i < 0:
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rv = '-' + rv
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return rv
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