Пример #1
0
// encodeDataRaw encodes data in dataMode. The encoded data is appended to
// encoded.
func (d *dataEncoder) encodeDataRaw(data []byte, dataMode dataMode, encoded *bitset.Bitset) {
	modeIndicator := d.modeIndicator(dataMode)
	charCountBits := d.charCountBits(dataMode)

	// Append mode indicator.
	encoded.Append(modeIndicator)

	// Append character count.
	encoded.AppendUint32(uint32(len(data)), charCountBits)

	// Append data.
	switch dataMode {
	case dataModeNumeric:
		for i := 0; i < len(data); i += 3 {
			charsRemaining := len(data) - i

			var value uint32
			bitsUsed := 1

			for j := 0; j < charsRemaining && j < 3; j++ {
				value *= 10
				value += uint32(data[i+j] - 0x30)
				bitsUsed += 3
			}
			encoded.AppendUint32(value, bitsUsed)
		}
	case dataModeAlphanumeric:
		for i := 0; i < len(data); i += 2 {
			charsRemaining := len(data) - i

			var value uint32
			for j := 0; j < charsRemaining && j < 2; j++ {
				value *= 45
				value += encodeAlphanumericCharacter(data[i+j])
			}

			bitsUsed := 6
			if charsRemaining > 1 {
				bitsUsed = 11
			}

			encoded.AppendUint32(value, bitsUsed)
		}
	case dataModeByte:
		for _, b := range data {
			encoded.AppendByte(b, 8)
		}
	}
}
Пример #2
0
// New constructs a QRCode.
//
//	var q *qrcode.QRCode
//	q, err := qrcode.New("my content", qrcode.Medium)
//
// An error occurs if the content is too long.
func New(content string, level RecoveryLevel) (*QRCode, error) {
	encoders := []dataEncoderType{dataEncoderType1To9, dataEncoderType10To26,
		dataEncoderType27To40}

	var encoder *dataEncoder
	var encoded *bitset.Bitset
	var chosenVersion *qrCodeVersion
	var err error

	for _, t := range encoders {
		encoder = newDataEncoder(t)
		encoded, err = encoder.encode([]byte(content))

		if err != nil {
			continue
		}

		chosenVersion = chooseQRCodeVersion(level, encoder, encoded.Len())

		if chosenVersion != nil {
			break
		}
	}

	if err != nil {
		return nil, err
	} else if chosenVersion == nil {
		return nil, errors.New("content too long to encode")
	}

	q := &QRCode{
		Content: content,

		Level:         level,
		VersionNumber: chosenVersion.version,

		ForegroundColor: color.Black,
		BackgroundColor: color.White,

		encoder: encoder,
		data:    encoded,
		version: *chosenVersion,
	}

	q.encode(chosenVersion.numTerminatorBitsRequired(encoded.Len()))

	return q, nil
}
Пример #3
0
func newWithForcedVersion(content string, version int, level RecoveryLevel) (*QRCode, error) {
	var encoder *dataEncoder

	switch {
	case version >= 1 && version <= 9:
		encoder = newDataEncoder(dataEncoderType1To9)
	case version >= 10 && version <= 26:
		encoder = newDataEncoder(dataEncoderType10To26)
	case version >= 27 && version <= 40:
		encoder = newDataEncoder(dataEncoderType27To40)
	default:
		log.Fatalf("Invalid version %d (expected 1-40 inclusive)", version)
	}

	var encoded *bitset.Bitset
	encoded, err := encoder.encode([]byte(content))

	if err != nil {
		return nil, err
	}

	chosenVersion := getQRCodeVersion(level, version)

	if chosenVersion == nil {
		return nil, errors.New("cannot find QR Code version")
	}

	q := &QRCode{
		Content: content,

		Level:         level,
		VersionNumber: chosenVersion.version,

		ForegroundColor: color.Black,
		BackgroundColor: color.White,

		encoder: encoder,
		data:    encoded,
		version: *chosenVersion,
	}

	q.encode(chosenVersion.numTerminatorBitsRequired(encoded.Len()))

	return q, nil
}
Пример #4
0
// newGFPolyFromData returns |data| as a polynomial over GF(2^8).
//
// Each data byte becomes the coefficient of an x term.
//
// For an n byte input the polynomial is:
// data[n-1]*(x^n-1) + data[n-2]*(x^n-2) ... + data[0]*(x^0).
func newGFPolyFromData(data *bitset.Bitset) gfPoly {
	numTotalBytes := data.Len() / 8
	if data.Len()%8 != 0 {
		numTotalBytes++
	}

	result := gfPoly{term: make([]gfElement, numTotalBytes)}

	i := numTotalBytes - 1
	for j := 0; j < data.Len(); j += 8 {
		result.term[i] = gfElement(data.ByteAt(j))
		i--
	}

	return result
}