ceremonyclient/nekryptology/pkg/signatures/schnorr/mina/bitvector.go

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// Copyright (c) 2014 Dropbox, Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this
// list of conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its contributors
// may be used to endorse or promote products derived from this software without
// specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
package mina
// A BitVector is a variable sized vector of bits. It supports
// lookups, sets, appends, insertions, and deletions.
//
// This class is not thread safe.
type BitVector struct {
data []byte
length int
}
// NewBitVector creates and initializes a new bit vector with length
// elements, using data as its initial contents.
func NewBitVector(data []byte, length int) *BitVector {
return &BitVector{
data: data,
length: length,
}
}
// Bytes returns a slice of the contents of the bit vector. If the caller changes the returned slice,
// the contents of the bit vector may change.
func (vector *BitVector) Bytes() []byte {
return vector.data
}
// Length returns the current number of elements in the bit vector.
func (vector *BitVector) Length() int {
return vector.length
}
// This function shifts a byte slice one bit lower (less significant).
// bit (either 1 or 0) contains the bit to put in the most significant
// position of the last byte in the slice.
// This returns the bit that was shifted off of the last byte.
func shiftLower(bit byte, b []byte) byte {
bit = bit << 7
for i := len(b) - 1; i >= 0; i-- {
newByte := b[i] >> 1
newByte |= bit
bit = (b[i] & 1) << 7
b[i] = newByte
}
return bit >> 7
}
// This function shifts a byte slice one bit higher (more significant).
// bit (either 1 or 0) contains the bit to put in the least significant
// position of the first byte in the slice.
// This returns the bit that was shifted off the last byte.
func shiftHigher(bit byte, b []byte) byte {
for i := 0; i < len(b); i++ {
newByte := b[i] << 1
newByte |= bit
bit = (b[i] & 0x80) >> 7
b[i] = newByte
}
return bit
}
// Returns the minimum number of bytes needed for storing the bit vector.
func (vector *BitVector) bytesLength() int {
lastBitIndex := vector.length - 1
lastByteIndex := lastBitIndex >> 3
return lastByteIndex + 1
}
// Panics if the given index is not within the bounds of the bit vector.
func (vector *BitVector) indexAssert(i int) {
if i < 0 || i >= vector.length {
panic("Attempted to access element outside buffer")
}
}
// Append adds a bit to the end of a bit vector.
func (vector *BitVector) Append(bit byte) {
index := uint32(vector.length)
vector.length++
if vector.bytesLength() > len(vector.data) {
vector.data = append(vector.data, 0)
}
byteIndex := index >> 3
byteOffset := index % 8
oldByte := vector.data[byteIndex]
var newByte byte
if bit == 1 {
newByte = oldByte | 1<<byteOffset
} else {
// Set all bits except the byteOffset
mask := byte(^(1 << byteOffset))
newByte = oldByte & mask
}
vector.data[byteIndex] = newByte
}
// Element returns the bit in the ith index of the bit vector.
// Returned value is either 1 or 0.
func (vector *BitVector) Element(i int) byte {
vector.indexAssert(i)
byteIndex := i >> 3
byteOffset := uint32(i % 8)
b := vector.data[byteIndex]
// Check the offset bit
return (b >> byteOffset) & 1
}
// Set changes the bit in the ith index of the bit vector to the value specified in
// bit.
func (vector *BitVector) Set(bit byte, index int) {
vector.indexAssert(index)
byteIndex := uint32(index >> 3)
byteOffset := uint32(index % 8)
oldByte := vector.data[byteIndex]
var newByte byte
if bit == 1 {
// turn on the byteOffset'th bit
newByte = oldByte | 1<<byteOffset
} else {
// turn off the byteOffset'th bit
removeMask := byte(^(1 << byteOffset))
newByte = oldByte & removeMask
}
vector.data[byteIndex] = newByte
}
// Insert inserts bit into the supplied index of the bit vector. All
// bits in positions greater than or equal to index before the call will
// be shifted up by one.
func (vector *BitVector) Insert(bit byte, index int) {
vector.indexAssert(index)
vector.length++
// Append an additional byte if necessary.
if vector.bytesLength() > len(vector.data) {
vector.data = append(vector.data, 0)
}
byteIndex := uint32(index >> 3)
byteOffset := uint32(index % 8)
var bitToInsert byte
if bit == 1 {
bitToInsert = 1 << byteOffset
}
oldByte := vector.data[byteIndex]
// This bit will need to be shifted into the next byte
leftoverBit := (oldByte & 0x80) >> 7
// Make masks to pull off the bits below and above byteOffset
// This mask has the byteOffset lowest bits set.
bottomMask := byte((1 << byteOffset) - 1)
// This mask has the 8 - byteOffset top bits set.
topMask := ^bottomMask
top := (oldByte & topMask) << 1
newByte := bitToInsert | (oldByte & bottomMask) | top
vector.data[byteIndex] = newByte
// Shift the rest of the bytes in the slice one higher, append
// the leftoverBit obtained above.
shiftHigher(leftoverBit, vector.data[byteIndex+1:])
}
// Delete removes the bit in the supplied index of the bit vector. All
// bits in positions greater than or equal to index before the call will
// be shifted down by one.
func (vector *BitVector) Delete(index int) {
vector.indexAssert(index)
vector.length--
byteIndex := uint32(index >> 3)
byteOffset := uint32(index % 8)
oldByte := vector.data[byteIndex]
// Shift all the bytes above the byte we're modifying, return the
// leftover bit to include in the byte we're modifying.
bit := shiftLower(0, vector.data[byteIndex+1:])
// Modify oldByte.
// At a high level, we want to select the bits above byteOffset,
// and shift them down by one, removing the bit at byteOffset.
// This selects the bottom bits
bottomMask := byte((1 << byteOffset) - 1)
// This selects the top (8 - byteOffset - 1) bits
topMask := byte(^((1 << (byteOffset + 1)) - 1))
// newTop is the top bits, shifted down one, combined with the leftover bit from shifting
// the other bytes.
newTop := (oldByte&topMask)>>1 | (bit << 7)
// newByte takes the bottom bits and combines with the new top.
newByte := (bottomMask & oldByte) | newTop
vector.data[byteIndex] = newByte
// The desired length is the byte index of the last element plus one,
// where the byte index of the last element is the bit index of the last
// element divided by 8.
byteLength := vector.bytesLength()
if byteLength < len(vector.data) {
vector.data = vector.data[:byteLength]
}
}