# Nimbus # Copyright (c) 2018 Status Research & Development GmbH # Licensed under either of # * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0) # * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT) # at your option. This file may not be copied, modified, or distributed except according to those terms. import stint, constants, strformat, strutils, sequtils, endians, macros, utils / padding, rlp # some methods based on py-evm utils/numeric proc intToBigEndian*(value: UInt256): Bytes {.deprecated.} = result = newSeq[byte](32) result[0 .. ^1] = value.toByteArrayBE() proc bigEndianToInt*(value: openarray[byte]): UInt256 = if value.len == 32: readUintBE[256](value) else: readUintBE[256](padLeft(@value, 32, 0.byte)) proc log256*(value: UInt256): Natural = (255 - value.countLeadingZeroBits) div 8 # Compilers optimize to `shr 3` proc unsignedToSigned*(value: UInt256): Int256 = 0.i256 # TODO Remove stub (used in quasiBoolean for signed comparison) proc signedToUnsigned*(value: Int256): UInt256 = 0.u256 # TODO Remove stub (used in quasiBoolean for signed comparison) proc unsignedToPseudoSigned*(value: UInt256): UInt256 = result = value if value > INT_256_MAX_AS_UINT256: result -= INT_256_MAX_AS_UINT256 proc pseudoSignedToUnsigned*(value: UInt256): UInt256 = result = value if value > INT_256_MAX_AS_UINT256: result += INT_256_MAX_AS_UINT256 func ceil32*(value: Natural): Natural {.inline.}= # Round input to the nearest bigger multiple of 32 result = value let remainder = result and 31 # equivalent to modulo 32 if remainder != 0: return value + 32 - remainder func wordCount*(length: Natural): Natural {.inline.}= # Returns the number of EVM words corresponding to a specific size. # EVM words is rounded up length.ceil32 shr 5 # equivalent to `div 32` (32 = 2^5)