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// Package common float40.go provides methods to work with Hermez custom half
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// float precision, 40 bits, codification internally called Float40 has been
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// adopted to encode large integers. This is done in order to save bits when L2
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// transactions are published.
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//nolint:gomnd
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package common
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import (
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"encoding/binary"
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"errors"
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"math/big"
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"github.com/hermeznetwork/tracerr"
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)
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const (
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// maxFloat40Value is the maximum value that the Float40 can have
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// (40 bits: maxFloat40Value=2**40-1)
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maxFloat40Value = 0xffffffffff
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// Float40BytesLength defines the length of the Float40 values
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// represented as byte arrays
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Float40BytesLength = 5
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)
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var (
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// ErrFloat40Overflow is used when a given Float40 overflows the
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// maximum capacity of the Float40 (2**40-1)
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ErrFloat40Overflow = errors.New("Float40 overflow, max value: 2**40 -1")
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// ErrFloat40E31 is used when the e > 31 when trying to convert a
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// *big.Int to Float40
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ErrFloat40E31 = errors.New("Float40 error, e > 31")
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// ErrFloat40NotEnoughPrecission is used when the given *big.Int can
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// not be represented as Float40 due not enough precission
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ErrFloat40NotEnoughPrecission = errors.New("Float40 error, not enough precission")
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thres = big.NewInt(0x08_00_00_00_00)
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)
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// Float40 represents a float in a 64 bit format
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type Float40 uint64
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// Bytes return a byte array of length 5 with the Float40 value encoded in
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// BigEndian
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func (f40 Float40) Bytes() ([]byte, error) {
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if f40 > maxFloat40Value {
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return []byte{}, tracerr.Wrap(ErrFloat40Overflow)
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}
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var f40Bytes [8]byte
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binary.BigEndian.PutUint64(f40Bytes[:], uint64(f40))
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var b [5]byte
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copy(b[:], f40Bytes[3:])
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return b[:], nil
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}
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// Float40FromBytes returns a Float40 from a byte array of 5 bytes in Bigendian
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// representation.
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func Float40FromBytes(b []byte) Float40 {
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var f40Bytes [8]byte
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copy(f40Bytes[3:], b[:])
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f40 := binary.BigEndian.Uint64(f40Bytes[:])
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return Float40(f40)
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}
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// BigInt converts the Float40 to a *big.Int v, where v = m * 10^e, being:
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// [ e | m ]
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// [ 5 bits | 35 bits ]
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func (f40 Float40) BigInt() (*big.Int, error) {
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// take the 5 used bytes (FF * 5)
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var f40Uint64 uint64 = uint64(f40) & 0x00_00_00_FF_FF_FF_FF_FF
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f40Bytes, err := f40.Bytes()
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if err != nil {
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return nil, tracerr.Wrap(err)
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}
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e := f40Bytes[0] & 0xF8 >> 3 // take first 5 bits
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m := f40Uint64 & 0x07_FF_FF_FF_FF // take the others 35 bits
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exp := new(big.Int).Exp(big.NewInt(10), big.NewInt(int64(e)), nil)
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r := new(big.Int).Mul(big.NewInt(int64(m)), exp)
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return r, nil
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}
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// newFloat40ME takes a *big.Int integer and returns the m (mantissa) & e
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// (exponent) from the Float40 representation
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func newFloat40ME(f *big.Int) (*big.Int, *big.Int) {
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m := f
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e := big.NewInt(0)
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zero := big.NewInt(0)
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ten := big.NewInt(10)
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for new(big.Int).Mod(m, ten).Cmp(zero) == 0 && m.Cmp(thres) >= 0 {
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m = new(big.Int).Div(m, ten)
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e = new(big.Int).Add(e, big.NewInt(1))
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}
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return m, e
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}
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// NewFloat40 encodes a *big.Int integer as a Float40, returning error in case
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// of loss during the encoding.
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func NewFloat40(f *big.Int) (Float40, error) {
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m, e := newFloat40ME(f)
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if e.Int64() > 31 {
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return 0, tracerr.Wrap(ErrFloat40E31)
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}
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if m.Cmp(thres) >= 0 {
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return 0, tracerr.Wrap(ErrFloat40NotEnoughPrecission)
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}
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r := new(big.Int).Add(m,
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new(big.Int).Mul(e, thres))
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return Float40(r.Uint64()), nil
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}
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// NewFloat40Floor encodes a *big.Int integer as a Float40, rounding down in
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// case of loss during the encoding. It returns an error in case that the number
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// is too big (e>31). Warning: this method should not be used inside the
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// hermez-node, it's a helper for external usage to generate valid Float40
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// values.
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func NewFloat40Floor(f *big.Int) (Float40, error) {
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m, e := newFloat40ME(f)
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if e.Int64() > 31 {
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return 0, tracerr.Wrap(ErrFloat40E31)
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}
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r := new(big.Int).Add(m,
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new(big.Int).Mul(e, thres))
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return Float40(r.Uint64()), nil
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}
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