lotus/extern/rleplus/internal/bitvector.go

package bitvector

import (
	"errors"
	"log"
)

var (
	// ErrOutOfRange - the index passed is out of range for the BitVector
	ErrOutOfRange = errors.New("index out of range")
)

// BitNumbering indicates the ordering of bits, either
// least-significant bit in position 0, or most-significant bit
// in position 0.
//
// It it used in 3 ways with BitVector:
// 1. Ordering of bits within the Buf []byte structure
// 2. What order to add bits when using Extend()
// 3. What order to read bits when using Take()
//
// https://en.wikipedia.org/wiki/Bit_numbering
type BitNumbering int

const (
	// LSB0 - bit ordering starts with the low-order bit
	LSB0 BitNumbering = iota

	// MSB0 - bit ordering starts with the high-order bit
	MSB0
)

// BitVector is used to manipulate ordered collections of bits
type BitVector struct {
	Buf []byte

	// BytePacking is the bit ordering within bytes
	BytePacking BitNumbering

	// Len is the logical number of bits in the vector.
	// The last byte in Buf may have undefined bits if Len is not a multiple of 8
	Len uint
}

// NewBitVector constructs a new BitVector from a slice of bytes.
//
// The bytePacking parameter is required to know how to interpret the bit ordering within the bytes.
func NewBitVector(buf []byte, bytePacking BitNumbering) *BitVector {
	return &BitVector{
		BytePacking: bytePacking,
		Buf:         buf,
		Len:         uint(len(buf) * 8),
	}
}

// Push adds a single bit to the BitVector.
//
// Although it takes a byte, only the low-order bit is used, so just use 0 or 1.
func (v *BitVector) Push(val byte) {
	if v.Len%8 == 0 {
		v.Buf = append(v.Buf, 0)
	}
	lastIdx := v.Len / 8

	switch v.BytePacking {
	case LSB0:
		v.Buf[lastIdx] |= (val & 1) << (v.Len % 8)
	default:
		v.Buf[lastIdx] |= (val & 1) << (7 - (v.Len % 8))
	}

	v.Len++
}

// Get returns a single bit as a byte -- either 0 or 1
func (v *BitVector) Get(idx uint) (byte, error) {
	if idx >= v.Len {
		return 0, ErrOutOfRange
	}
	blockIdx := idx / 8

	switch v.BytePacking {
	case LSB0:
		return v.Buf[blockIdx] >> (idx % 8) & 1, nil
	default:
		return v.Buf[blockIdx] >> (7 - idx%8) & 1, nil
	}
}

// Extend adds up to 8 bits to the receiver
//
// Given a byte b == 0b11010101
// v.Extend(b, 4, LSB0) would add < 1, 0, 1, 0 >
// v.Extend(b, 4, MSB0) would add < 1, 1, 0, 1 >
//
// Panics if count is out of range
func (v *BitVector) Extend(val byte, count uint, order BitNumbering) {
	if count > 8 {
		log.Panicf("invalid count")
	}

	for i := uint(0); i < count; i++ {
		switch order {
		case LSB0:
			v.Push((val >> i) & 1)
		default:
			v.Push((val >> (7 - i)) & 1)
		}
	}
}

// Take reads up to 8 bits at the given index.
//
// Given a BitVector < 1, 1, 0, 1, 0, 1, 0, 1 >
// v.Take(0, 4, LSB0) would return 0b00001011
// v.Take(0, 4, MSB0) would return 0b11010000
//
// Panics if count is out of range
func (v *BitVector) Take(index uint, count uint, order BitNumbering) (out byte) {
	if count > 8 {
		log.Panicf("invalid count")
	}

	for i := uint(0); i < count; i++ {
		val, _ := v.Get(index + i)

		switch order {
		case LSB0:
			out |= val << i
		default:
			out |= val << (7 - i)
		}
	}
	return
}

// Iterator returns a function, which when invoked, returns the number
// of bits requested, and increments an internal cursor.
//
// When the end of the BitVector is reached, it returns zeroes indefinitely
//
// Panics if count is out of range
func (v *BitVector) Iterator(order BitNumbering) func(uint) byte {
	cursor := uint(0)
	return func(count uint) (out byte) {
		if count > 8 {
			log.Panicf("invalid count")
		}

		out = v.Take(cursor, count, order)
		cursor += count
		return
	}
}
Squashed 'extern/rleplus/' content from commit 59d0714 git-subtree-dir: extern/rleplus git-subtree-split: 59d0714e9be58cf96d82cdce18fe727041f9001d 2019-09-16 12:07:48 +00:00			`package bitvector`

			`import (`
			`"errors"`
			`"log"`
			`)`

			`var (`
			`// ErrOutOfRange - the index passed is out of range for the BitVector`
			`ErrOutOfRange = errors.New("index out of range")`
			`)`

			`// BitNumbering indicates the ordering of bits, either`
			`// least-significant bit in position 0, or most-significant bit`
			`// in position 0.`
			`//`
			`// It it used in 3 ways with BitVector:`
			`// 1. Ordering of bits within the Buf []byte structure`
			`// 2. What order to add bits when using Extend()`
			`// 3. What order to read bits when using Take()`
			`//`
			`// https://en.wikipedia.org/wiki/Bit_numbering`
			`type BitNumbering int`

			`const (`
			`// LSB0 - bit ordering starts with the low-order bit`
			`LSB0 BitNumbering = iota`

			`// MSB0 - bit ordering starts with the high-order bit`
			`MSB0`
			`)`

			`// BitVector is used to manipulate ordered collections of bits`
			`type BitVector struct {`
			`Buf []byte`

			`// BytePacking is the bit ordering within bytes`
			`BytePacking BitNumbering`

			`// Len is the logical number of bits in the vector.`
			`// The last byte in Buf may have undefined bits if Len is not a multiple of 8`
			`Len uint`
			`}`

			`// NewBitVector constructs a new BitVector from a slice of bytes.`
			`//`
			`// The bytePacking parameter is required to know how to interpret the bit ordering within the bytes.`
			`func NewBitVector(buf []byte, bytePacking BitNumbering) *BitVector {`
			`return &BitVector{`
			`BytePacking: bytePacking,`
			`Buf: buf,`
			`Len: uint(len(buf) * 8),`
			`}`
			`}`

			`// Push adds a single bit to the BitVector.`
			`//`
			`// Although it takes a byte, only the low-order bit is used, so just use 0 or 1.`
			`func (v *BitVector) Push(val byte) {`
			`if v.Len%8 == 0 {`
			`v.Buf = append(v.Buf, 0)`
			`}`
			`lastIdx := v.Len / 8`

			`switch v.BytePacking {`
			`case LSB0:`
			`v.Buf[lastIdx] \|= (val & 1) << (v.Len % 8)`
			`default:`
			`v.Buf[lastIdx] \|= (val & 1) << (7 - (v.Len % 8))`
			`}`

			`v.Len++`
			`}`

			`// Get returns a single bit as a byte -- either 0 or 1`
			`func (v *BitVector) Get(idx uint) (byte, error) {`
			`if idx >= v.Len {`
			`return 0, ErrOutOfRange`
			`}`
			`blockIdx := idx / 8`

			`switch v.BytePacking {`
			`case LSB0:`
			`return v.Buf[blockIdx] >> (idx % 8) & 1, nil`
			`default:`
			`return v.Buf[blockIdx] >> (7 - idx%8) & 1, nil`
			`}`
			`}`

			`// Extend adds up to 8 bits to the receiver`
			`//`
			`// Given a byte b == 0b11010101`
			`// v.Extend(b, 4, LSB0) would add < 1, 0, 1, 0 >`
			`// v.Extend(b, 4, MSB0) would add < 1, 1, 0, 1 >`
			`//`
			`// Panics if count is out of range`
			`func (v *BitVector) Extend(val byte, count uint, order BitNumbering) {`
			`if count > 8 {`
			`log.Panicf("invalid count")`
			`}`

			`for i := uint(0); i < count; i++ {`
			`switch order {`
			`case LSB0:`
			`v.Push((val >> i) & 1)`
			`default:`
			`v.Push((val >> (7 - i)) & 1)`
			`}`
			`}`
			`}`

			`// Take reads up to 8 bits at the given index.`
			`//`
			`// Given a BitVector < 1, 1, 0, 1, 0, 1, 0, 1 >`
			`// v.Take(0, 4, LSB0) would return 0b00001011`
			`// v.Take(0, 4, MSB0) would return 0b11010000`
			`//`
			`// Panics if count is out of range`
			`func (v *BitVector) Take(index uint, count uint, order BitNumbering) (out byte) {`
			`if count > 8 {`
			`log.Panicf("invalid count")`
			`}`

			`for i := uint(0); i < count; i++ {`
			`val, _ := v.Get(index + i)`

			`switch order {`
			`case LSB0:`
			`out \|= val << i`
			`default:`
			`out \|= val << (7 - i)`
			`}`
			`}`
			`return`
			`}`

			`// Iterator returns a function, which when invoked, returns the number`
			`// of bits requested, and increments an internal cursor.`
			`//`
			`// When the end of the BitVector is reached, it returns zeroes indefinitely`
			`//`
			`// Panics if count is out of range`
			`func (v *BitVector) Iterator(order BitNumbering) func(uint) byte {`
			`cursor := uint(0)`
			`return func(count uint) (out byte) {`
			`if count > 8 {`
			`log.Panicf("invalid count")`
			`}`

			`out = v.Take(cursor, count, order)`
			`cursor += count`
			`return`
			`}`
			`}`