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matterbridge/vendor/github.com/skip2/go-qrcode/bitset/bitset.go

274 lines
5.9 KiB
Go

// go-qrcode
// Copyright 2014 Tom Harwood
// Package bitset implements an append only bit array.
//
// To create a Bitset and append some bits:
// // Bitset Contents
// b := bitset.New() // {}
// b.AppendBools(true, true, false) // {1, 1, 0}
// b.AppendBools(true) // {1, 1, 0, 1}
// b.AppendValue(0x02, 4) // {1, 1, 0, 1, 0, 0, 1, 0}
//
// To read values:
//
// len := b.Len() // 8
// v := b.At(0) // 1
// v = b.At(1) // 1
// v = b.At(2) // 0
// v = b.At(8) // 0
package bitset
import (
"bytes"
"fmt"
"log"
)
const (
b0 = false
b1 = true
)
// Bitset stores an array of bits.
type Bitset struct {
// The number of bits stored.
numBits int
// Storage for individual bits.
bits []byte
}
// New returns an initialised Bitset with optional initial bits v.
func New(v ...bool) *Bitset {
b := &Bitset{numBits: 0, bits: make([]byte, 0)}
b.AppendBools(v...)
return b
}
// Clone returns a copy.
func Clone(from *Bitset) *Bitset {
return &Bitset{numBits: from.numBits, bits: from.bits[:]}
}
// Substr returns a substring, consisting of the bits from indexes start to end.
func (b *Bitset) Substr(start int, end int) *Bitset {
if start > end || end > b.numBits {
log.Panicf("Out of range start=%d end=%d numBits=%d", start, end, b.numBits)
}
result := New()
result.ensureCapacity(end - start)
for i := start; i < end; i++ {
if b.At(i) {
result.bits[result.numBits/8] |= 0x80 >> uint(result.numBits%8)
}
result.numBits++
}
return result
}
// NewFromBase2String constructs and returns a Bitset from a string. The string
// consists of '1', '0' or ' ' characters, e.g. "1010 0101". The '1' and '0'
// characters represent true/false bits respectively, and ' ' characters are
// ignored.
//
// The function panics if the input string contains other characters.
func NewFromBase2String(b2string string) *Bitset {
b := &Bitset{numBits: 0, bits: make([]byte, 0)}
for _, c := range b2string {
switch c {
case '1':
b.AppendBools(true)
case '0':
b.AppendBools(false)
case ' ':
default:
log.Panicf("Invalid char %c in NewFromBase2String", c)
}
}
return b
}
// AppendBytes appends a list of whole bytes.
func (b *Bitset) AppendBytes(data []byte) {
for _, d := range data {
b.AppendByte(d, 8)
}
}
// AppendByte appends the numBits least significant bits from value.
func (b *Bitset) AppendByte(value byte, numBits int) {
b.ensureCapacity(numBits)
if numBits > 8 {
log.Panicf("numBits %d out of range 0-8", numBits)
}
for i := numBits - 1; i >= 0; i-- {
if value&(1<<uint(i)) != 0 {
b.bits[b.numBits/8] |= 0x80 >> uint(b.numBits%8)
}
b.numBits++
}
}
// AppendUint32 appends the numBits least significant bits from value.
func (b *Bitset) AppendUint32(value uint32, numBits int) {
b.ensureCapacity(numBits)
if numBits > 32 {
log.Panicf("numBits %d out of range 0-32", numBits)
}
for i := numBits - 1; i >= 0; i-- {
if value&(1<<uint(i)) != 0 {
b.bits[b.numBits/8] |= 0x80 >> uint(b.numBits%8)
}
b.numBits++
}
}
// ensureCapacity ensures the Bitset can store an additional |numBits|.
//
// The underlying array is expanded if necessary. To prevent frequent
// reallocation, expanding the underlying array at least doubles its capacity.
func (b *Bitset) ensureCapacity(numBits int) {
numBits += b.numBits
newNumBytes := numBits / 8
if numBits%8 != 0 {
newNumBytes++
}
if len(b.bits) >= newNumBytes {
return
}
b.bits = append(b.bits, make([]byte, newNumBytes+2*len(b.bits))...)
}
// Append bits copied from |other|.
//
// The new length is b.Len() + other.Len().
func (b *Bitset) Append(other *Bitset) {
b.ensureCapacity(other.numBits)
for i := 0; i < other.numBits; i++ {
if other.At(i) {
b.bits[b.numBits/8] |= 0x80 >> uint(b.numBits%8)
}
b.numBits++
}
}
// AppendBools appends bits to the Bitset.
func (b *Bitset) AppendBools(bits ...bool) {
b.ensureCapacity(len(bits))
for _, v := range bits {
if v {
b.bits[b.numBits/8] |= 0x80 >> uint(b.numBits%8)
}
b.numBits++
}
}
// AppendNumBools appends num bits of value value.
func (b *Bitset) AppendNumBools(num int, value bool) {
for i := 0; i < num; i++ {
b.AppendBools(value)
}
}
// String returns a human readable representation of the Bitset's contents.
func (b *Bitset) String() string {
var bitString string
for i := 0; i < b.numBits; i++ {
if (i % 8) == 0 {
bitString += " "
}
if (b.bits[i/8] & (0x80 >> byte(i%8))) != 0 {
bitString += "1"
} else {
bitString += "0"
}
}
return fmt.Sprintf("numBits=%d, bits=%s", b.numBits, bitString)
}
// Len returns the length of the Bitset in bits.
func (b *Bitset) Len() int {
return b.numBits
}
// Bits returns the contents of the Bitset.
func (b *Bitset) Bits() []bool {
result := make([]bool, b.numBits)
var i int
for i = 0; i < b.numBits; i++ {
result[i] = (b.bits[i/8] & (0x80 >> byte(i%8))) != 0
}
return result
}
// At returns the value of the bit at |index|.
func (b *Bitset) At(index int) bool {
if index >= b.numBits {
log.Panicf("Index %d out of range", index)
}
return (b.bits[index/8] & (0x80 >> byte(index%8))) != 0
}
// Equals returns true if the Bitset equals other.
func (b *Bitset) Equals(other *Bitset) bool {
if b.numBits != other.numBits {
return false
}
if !bytes.Equal(b.bits[0:b.numBits/8], other.bits[0:b.numBits/8]) {
return false
}
for i := 8 * (b.numBits / 8); i < b.numBits; i++ {
a := (b.bits[i/8] & (0x80 >> byte(i%8)))
b := (other.bits[i/8] & (0x80 >> byte(i%8)))
if a != b {
return false
}
}
return true
}
// ByteAt returns a byte consisting of upto 8 bits starting at index.
func (b *Bitset) ByteAt(index int) byte {
if index < 0 || index >= b.numBits {
log.Panicf("Index %d out of range", index)
}
var result byte
for i := index; i < index+8 && i < b.numBits; i++ {
result <<= 1
if b.At(i) {
result |= 1
}
}
return result
}