package currency import ( "encoding/json" "math/rand" "strings" "github.com/thrasher-corp/gocryptotrader/log" ) // NewPairsFromStrings takes in currency pair strings and returns a currency // pair list func NewPairsFromStrings(pairs []string) (Pairs, error) { var newPairs Pairs for i := range pairs { if pairs[i] == "" { continue } newPair, err := NewPairFromString(pairs[i]) if err != nil { return nil, err } newPairs = append(newPairs, newPair) } return newPairs, nil } // Strings returns a slice of strings referring to each currency pair func (p Pairs) Strings() []string { var list []string for i := range p { list = append(list, p[i].String()) } return list } // Join returns a comma separated list of currency pairs func (p Pairs) Join() string { return strings.Join(p.Strings(), ",") } // Format formats the pair list to the exchange format configuration func (p Pairs) Format(delimiter, index string, uppercase bool) Pairs { var pairs Pairs for i := range p { var formattedPair = Pair{ Delimiter: delimiter, Base: p[i].Base, Quote: p[i].Quote, } if index != "" { newP, err := NewPairFromIndex(p[i].String(), index) if err != nil { log.Errorf(log.Global, "failed to create NewPairFromIndex. Err: %s\n", err) continue } formattedPair.Base = newP.Base formattedPair.Quote = newP.Quote } if uppercase { pairs = append(pairs, formattedPair.Upper()) } else { pairs = append(pairs, formattedPair.Lower()) } } return pairs } // UnmarshalJSON comforms type to the umarshaler interface func (p *Pairs) UnmarshalJSON(d []byte) error { var pairs string err := json.Unmarshal(d, &pairs) if err != nil { return err } // If no pairs enabled in config just continue if pairs == "" { return nil } var allThePairs Pairs oldPairs := strings.Split(pairs, ",") for i := range oldPairs { pair, err := NewPairFromString(oldPairs[i]) if err != nil { return err } allThePairs = append(allThePairs, pair) } *p = allThePairs return nil } // MarshalJSON conforms type to the marshaler interface func (p Pairs) MarshalJSON() ([]byte, error) { return json.Marshal(p.Join()) } // Upper returns an upper formatted pair list func (p Pairs) Upper() Pairs { var upper Pairs for i := range p { upper = append(upper, p[i].Upper()) } return upper } // Contains checks to see if a specified pair exists inside a currency pair // array func (p Pairs) Contains(check Pair, exact bool) bool { for i := range p { if exact { if p[i].Equal(check) { return true } } else { if p[i].EqualIncludeReciprocal(check) { return true } } } return false } // RemovePairsByFilter checks to see if a pair contains a specific currency // and removes it from the list of pairs func (p Pairs) RemovePairsByFilter(filter Code) Pairs { var pairs Pairs for i := range p { if p[i].ContainsCurrency(filter) { continue } pairs = append(pairs, p[i]) } return pairs } // Remove removes the specified pair from the list of pairs if it exists func (p Pairs) Remove(pair Pair) Pairs { var pairs Pairs for x := range p { if p[x].Equal(pair) { continue } pairs = append(pairs, p[x]) } return pairs } // Add adds a specified pair to the list of pairs if it doesn't exist func (p Pairs) Add(pair Pair) Pairs { if p.Contains(pair, true) { return p } p = append(p, pair) return p } // FindDifferences returns pairs which are new or have been removed func (p Pairs) FindDifferences(pairs Pairs) (newPairs, removedPairs Pairs) { for x := range pairs { if pairs[x].String() == "" { continue } if !p.Contains(pairs[x], true) { newPairs = append(newPairs, pairs[x]) } } for x := range p { if p[x].String() == "" { continue } if !pairs.Contains(p[x], true) { removedPairs = append(removedPairs, p[x]) } } return } // GetRandomPair returns a random pair from a list of pairs func (p Pairs) GetRandomPair() Pair { pairsLen := len(p) if pairsLen == 0 { return Pair{Base: NewCode(""), Quote: NewCode("")} } return p[rand.Intn(pairsLen)] // nolint:gosec // basic number generation required, no need for crypo/rand }