package ticker import ( "math/rand" "reflect" "strconv" "sync" "testing" "time" "github.com/thrasher-/gocryptotrader/currency" log "github.com/thrasher-/gocryptotrader/logger" ) func TestPriceToString(t *testing.T) { newPair := currency.NewPairFromStrings("BTC", "USD") priceStruct := Price{ Pair: newPair, Last: 1200, High: 1298, Low: 1148, Bid: 1195, Ask: 1220, Volume: 5, PriceATH: 1337, } newTicker := CreateNewTicker("ANX", priceStruct, Spot) if newTicker.PriceToString(newPair, "last", Spot) != "1200" { t.Error("Test Failed - ticker PriceToString last value is incorrect") } if newTicker.PriceToString(newPair, "high", Spot) != "1298" { t.Error("Test Failed - ticker PriceToString high value is incorrect") } if newTicker.PriceToString(newPair, "low", Spot) != "1148" { t.Error("Test Failed - ticker PriceToString low value is incorrect") } if newTicker.PriceToString(newPair, "bid", Spot) != "1195" { t.Error("Test Failed - ticker PriceToString bid value is incorrect") } if newTicker.PriceToString(newPair, "ask", Spot) != "1220" { t.Error("Test Failed - ticker PriceToString ask value is incorrect") } if newTicker.PriceToString(newPair, "volume", Spot) != "5" { t.Error("Test Failed - ticker PriceToString volume value is incorrect") } if newTicker.PriceToString(newPair, "ath", Spot) != "1337" { t.Error("Test Failed - ticker PriceToString ath value is incorrect") } if newTicker.PriceToString(newPair, "obtuse", Spot) != "" { t.Error("Test Failed - ticker PriceToString obtuse value is incorrect") } } func TestGetTicker(t *testing.T) { newPair := currency.NewPairFromStrings("BTC", "USD") priceStruct := Price{ Pair: newPair, Last: 1200, High: 1298, Low: 1148, Bid: 1195, Ask: 1220, Volume: 5, PriceATH: 1337, } err := ProcessTicker("bitfinex", priceStruct, Spot) if err != nil { t.Fatal("Test failed. ProcessTicker error", err) } tickerPrice, err := GetTicker("bitfinex", newPair, Spot) if err != nil { t.Errorf("Test Failed - Ticker GetTicker init error: %s", err) } if tickerPrice.Pair.String() != "BTCUSD" { t.Error("Test Failed - ticker tickerPrice.CurrencyPair value is incorrect") } _, err = GetTicker("blah", newPair, Spot) if err == nil { t.Fatal("Test Failed. TestGetTicker returned nil error on invalid exchange") } newPair.Base = currency.ETH _, err = GetTicker("bitfinex", newPair, Spot) if err == nil { t.Fatal("Test Failed. TestGetTicker returned ticker for invalid first currency") } btcltcPair := currency.NewPairFromStrings("BTC", "LTC") _, err = GetTicker("bitfinex", btcltcPair, Spot) if err == nil { t.Fatal("Test Failed. TestGetTicker returned ticker for invalid second currency") } priceStruct.PriceATH = 9001 priceStruct.Pair.Base = currency.ETH err = ProcessTicker("bitfinex", priceStruct, "futures_3m") if err != nil { t.Fatal("Test failed. ProcessTicker error", err) } tickerPrice, err = GetTicker("bitfinex", newPair, "futures_3m") if err != nil { t.Errorf("Test Failed - Ticker GetTicker init error: %s", err) } if tickerPrice.PriceATH != 9001 { t.Error("Test Failed - ticker tickerPrice.PriceATH value is incorrect") } } func TestGetTickerByExchange(t *testing.T) { newPair := currency.NewPairFromStrings("BTC", "USD") priceStruct := Price{ Pair: newPair, Last: 1200, High: 1298, Low: 1148, Bid: 1195, Ask: 1220, Volume: 5, PriceATH: 1337, } anxTicker := CreateNewTicker("ANX", priceStruct, Spot) Tickers = append(Tickers, anxTicker) tickerPtr, err := GetTickerByExchange("ANX") if err != nil { t.Errorf("Test Failed - GetTickerByExchange init error: %s", err) } if tickerPtr.ExchangeName != "ANX" { t.Error("Test Failed - GetTickerByExchange ExchangeName value is incorrect") } } func TestFirstCurrencyExists(t *testing.T) { newPair := currency.NewPairFromStrings("BTC", "USD") priceStruct := Price{ Pair: newPair, Last: 1200, High: 1298, Low: 1148, Bid: 1195, Ask: 1220, Volume: 5, PriceATH: 1337, } alphaTicker := CreateNewTicker("alphapoint", priceStruct, Spot) Tickers = append(Tickers, alphaTicker) if !FirstCurrencyExists("alphapoint", currency.BTC) { t.Error("Test Failed - FirstCurrencyExists1 value return is incorrect") } if FirstCurrencyExists("alphapoint", currency.NewCode("CATS")) { t.Error("Test Failed - FirstCurrencyExists2 value return is incorrect") } } func TestSecondCurrencyExists(t *testing.T) { t.Parallel() newPair := currency.NewPairFromStrings("BTC", "USD") priceStruct := Price{ Pair: newPair, Last: 1200, High: 1298, Low: 1148, Bid: 1195, Ask: 1220, Volume: 5, PriceATH: 1337, } bitstampTicker := CreateNewTicker("bitstamp", priceStruct, "SPOT") Tickers = append(Tickers, bitstampTicker) if !SecondCurrencyExists("bitstamp", newPair) { t.Error("Test Failed - SecondCurrencyExists1 value return is incorrect") } newPair.Quote = currency.NewCode("DOGS") if SecondCurrencyExists("bitstamp", newPair) { t.Error("Test Failed - SecondCurrencyExists2 value return is incorrect") } } func TestCreateNewTicker(t *testing.T) { const float64Type = "float64" newPair := currency.NewPairFromStrings("BTC", "USD") priceStruct := Price{ Pair: newPair, Last: 1200, High: 1298, Low: 1148, Bid: 1195, Ask: 1220, Volume: 5, PriceATH: 1337, } newTicker := CreateNewTicker("ANX", priceStruct, Spot) if reflect.ValueOf(newTicker).NumField() != 2 { t.Error("Test Failed - ticker CreateNewTicker struct change/or updated") } if reflect.TypeOf(newTicker.ExchangeName).String() != "string" { t.Error("Test Failed - ticker CreateNewTicker.ExchangeName value is not a string") } if newTicker.ExchangeName != "ANX" { t.Error("Test Failed - ticker CreateNewTicker.ExchangeName value is not ANX") } if newTicker.Price[currency.BTC.Upper().String()][currency.USD.Upper().String()][Spot].Pair.String() != "BTCUSD" { t.Error("Test Failed - ticker newTicker.Price[BTC][USD].Pair.Pair().String() value is not expected 'BTCUSD'") } if reflect.TypeOf(newTicker.Price["BTC"]["USD"][Spot].Ask).String() != float64Type { t.Error("Test Failed - ticker newTicker.Price[BTC][USD].Ask value is not a float64") } if reflect.TypeOf(newTicker.Price["BTC"]["USD"][Spot].Bid).String() != float64Type { t.Error("Test Failed - ticker newTicker.Price[BTC][USD].Bid value is not a float64") } if reflect.TypeOf(newTicker.Price["BTC"]["USD"][Spot].Pair).String() != "currency.Pair" { t.Error("Test Failed - ticker newTicker.Price[BTC][USD].CurrencyPair value is not a currency.Pair") } if reflect.TypeOf(newTicker.Price["BTC"]["USD"][Spot].High).String() != float64Type { t.Error("Test Failed - ticker newTicker.Price[BTC][USD].High value is not a float64") } if reflect.TypeOf(newTicker.Price["BTC"]["USD"][Spot].Last).String() != float64Type { t.Error("Test Failed - ticker newTicker.Price[BTC][USD].Last value is not a float64") } if reflect.TypeOf(newTicker.Price["BTC"]["USD"][Spot].Low).String() != float64Type { t.Error("Test Failed - ticker newTicker.Price[BTC][USD].Low value is not a float64") } if reflect.TypeOf(newTicker.Price["BTC"]["USD"][Spot].PriceATH).String() != float64Type { t.Error("Test Failed - ticker newTicker.Price[BTC][USD].PriceATH value is not a float64") } if reflect.TypeOf(newTicker.Price["BTC"]["USD"][Spot].Volume).String() != float64Type { t.Error("Test Failed - ticker newTicker.Price[BTC][USD].Volume value is not a float64") } } func TestProcessTicker(t *testing.T) { // non-appending function to tickers Tickers = []Ticker{} newPair := currency.NewPairFromStrings("BTC", "USD") priceStruct := Price{ Pair: newPair, Last: 1200, High: 1298, Low: 1148, Bid: 1195, Ask: 1220, Volume: 5, PriceATH: 1337, } err := ProcessTicker("btcc", Price{}, Spot) if err == nil { t.Fatal("Test failed. ProcessTicker error cannot be nil") } err = ProcessTicker("btcc", priceStruct, Spot) if err != nil { t.Fatal("Test failed. ProcessTicker error", err) } result, err := GetTicker("btcc", newPair, Spot) if err != nil { t.Fatal("Test failed. TestProcessTicker failed to create and return a new ticker") } if result.Pair.String() != newPair.String() { t.Fatal("Test failed. TestProcessTicker pair mismatch") } secondPair := currency.NewPairFromStrings("BTC", "AUD") priceStruct.Pair = secondPair err = ProcessTicker("btcc", priceStruct, Spot) if err != nil { t.Fatal("Test failed. ProcessTicker error", err) } result, err = GetTicker("btcc", secondPair, Spot) if err != nil { t.Fatal("Test failed. TestProcessTicker failed to create and return a new ticker") } result, err = GetTicker("btcc", newPair, Spot) if err != nil { t.Fatal("Test failed. TestProcessTicker failed to return an existing ticker") } type quick struct { Name string P currency.Pair TP Price } var testArray []quick _ = rand.NewSource(time.Now().Unix()) var wg sync.WaitGroup var sm sync.Mutex var catastrophicFailure bool for i := 0; i < 500; i++ { if catastrophicFailure { break } wg.Add(1) go func() { newName := "Exchange" + strconv.FormatInt(rand.Int63(), 10) newPairs := currency.NewPairFromStrings("BTC"+strconv.FormatInt(rand.Int63(), 10), "USD"+strconv.FormatInt(rand.Int63(), 10)) tp := Price{ Pair: newPairs, Last: rand.Float64(), } sm.Lock() err = ProcessTicker(newName, tp, Spot) if err != nil { log.Error(err) catastrophicFailure = true return } testArray = append(testArray, quick{Name: newName, P: newPairs, TP: tp}) sm.Unlock() wg.Done() }() } if catastrophicFailure { t.Fatal("Test failed. ProcessTicker error") } wg.Wait() for _, test := range testArray { wg.Add(1) fatalErr := false go func(test quick) { result, err := GetTicker(test.Name, test.P, Spot) if err != nil { fatalErr = true return } if result.Last != test.TP.Last { t.Error("Test failed. TestProcessTicker failed bad values") } wg.Done() }(test) if fatalErr { t.Fatal("Test failed. TestProcessTicker failed to retrieve new ticker") } } wg.Wait() }