gocryptotrader/common/convert/convert_test.go

package convert

import (
	"strings"
	"testing"
	"time"

	"github.com/shopspring/decimal"
)

func TestFloatFromString(t *testing.T) {
	t.Parallel()
	testString := "1.41421356237"
	expectedOutput := float64(1.41421356237)

	actualOutput, err := FloatFromString(testString)
	if actualOutput != expectedOutput || err != nil {
		t.Errorf("Common FloatFromString. Expected '%v'. Actual '%v'. Error: %s",
			expectedOutput, actualOutput, err)
	}

	var testByte []byte
	_, err = FloatFromString(testByte)
	if err == nil {
		t.Error("Common FloatFromString. Converted non-string.")
	}

	testString = "   something unconvertible  "
	_, err = FloatFromString(testString)
	if err == nil {
		t.Error("Common FloatFromString. Converted invalid syntax.")
	}
}

func TestIntFromString(t *testing.T) {
	t.Parallel()
	testString := "1337"
	actualOutput, err := IntFromString(testString)
	if expectedOutput := 1337; actualOutput != expectedOutput || err != nil {
		t.Errorf("Common IntFromString. Expected '%v'. Actual '%v'. Error: %s",
			expectedOutput, actualOutput, err)
	}

	var testByte []byte
	_, err = IntFromString(testByte)
	if err == nil {
		t.Error("Common IntFromString. Converted non-string.")
	}

	testString = "1.41421356237"
	_, err = IntFromString(testString)
	if err == nil {
		t.Error("Common IntFromString. Converted invalid syntax.")
	}
}

func TestInt64FromString(t *testing.T) {
	t.Parallel()
	testString := "4398046511104"
	expectedOutput := int64(1 << 42)

	actualOutput, err := Int64FromString(testString)
	if actualOutput != expectedOutput || err != nil {
		t.Errorf("Common Int64FromString. Expected '%v'. Actual '%v'. Error: %s",
			expectedOutput, actualOutput, err)
	}

	var testByte []byte
	_, err = Int64FromString(testByte)
	if err == nil {
		t.Error("Common Int64FromString. Converted non-string.")
	}

	testString = "1.41421356237"
	_, err = Int64FromString(testString)
	if err == nil {
		t.Error("Common Int64FromString. Converted invalid syntax.")
	}
}

func TestTimeFromUnixTimestampFloat(t *testing.T) {
	t.Parallel()
	testTimestamp := float64(1414456320000)
	expectedOutput := time.Date(2014, time.October, 28, 0, 32, 0, 0, time.UTC)

	actualOutput, err := TimeFromUnixTimestampFloat(testTimestamp)
	if actualOutput.UTC().String() != expectedOutput.UTC().String() || err != nil {
		t.Errorf("Common TimeFromUnixTimestampFloat. Expected '%v'. Actual '%v'. Error: %s",
			expectedOutput, actualOutput, err)
	}

	testString := "Time"
	_, err = TimeFromUnixTimestampFloat(testString)
	if err == nil {
		t.Error("Common TimeFromUnixTimestampFloat. Converted invalid syntax.")
	}
}

func TestTimeFromUnixTimestampDecimal(t *testing.T) {
	r := TimeFromUnixTimestampDecimal(1590633982.5714)
	if r.Year() != 2020 ||
		r.Month().String() != "May" ||
		r.Day() != 28 {
		t.Error("unexpected result")
	}

	r = TimeFromUnixTimestampDecimal(1560516023.070651)
	if r.Year() != 2019 ||
		r.Month().String() != "June" ||
		r.Day() != 14 {
		t.Error("unexpected result")
	}
}

func TestUnixTimestampToTime(t *testing.T) {
	t.Parallel()
	testTime := int64(1489439831)
	tm := time.Unix(testTime, 0)
	expectedOutput := "2017-03-13 21:17:11 +0000 UTC"
	actualResult := UnixTimestampToTime(testTime)
	if tm.String() != actualResult.String() {
		t.Errorf(
			"Expected '%s'. Actual '%s'.", expectedOutput, actualResult)
	}
}

func TestUnixTimestampStrToTime(t *testing.T) {
	t.Parallel()
	testTime := "1489439831"
	incorrectTime := "DINGDONG"
	expectedOutput := "2017-03-13 21:17:11 +0000 UTC"
	actualResult, err := UnixTimestampStrToTime(testTime)
	if err != nil {
		t.Error(err)
	}
	if actualResult.UTC().String() != expectedOutput {
		t.Errorf(
			"Expected '%s'. Actual '%s'.", expectedOutput, actualResult)
	}
	_, err = UnixTimestampStrToTime(incorrectTime)
	if err == nil {
		t.Error("should throw an error")
	}
}

func TestBoolPtr(t *testing.T) {
	y := BoolPtr(true)
	if !*y {
		t.Fatal("true expected received false")
	}
	z := BoolPtr(false)
	if *z {
		t.Fatal("false expected received true")
	}
}

func TestFloatToHumanFriendlyString(t *testing.T) {
	t.Parallel()
	test := FloatToHumanFriendlyString(0, 3, ".", ",")
	if strings.Contains(test, ",") {
		t.Error("unexpected ','")
	}
	test = FloatToHumanFriendlyString(100, 3, ".", ",")
	if strings.Contains(test, ",") {
		t.Error("unexpected ','")
	}
	test = FloatToHumanFriendlyString(1000, 3, ".", ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}

	test = FloatToHumanFriendlyString(-1000, 3, ".", ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}

	test = FloatToHumanFriendlyString(-1000, 10, ".", ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}

	test = FloatToHumanFriendlyString(1000.1337, 1, ".", ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}
	dec := strings.Split(test, ".")
	if len(dec) == 1 {
		t.Error("expected decimal place")
	}
	if dec[1] != "1" {
		t.Error("expected decimal place")
	}
}

func TestDecimalToHumanFriendlyString(t *testing.T) {
	t.Parallel()
	test := DecimalToHumanFriendlyString(decimal.Zero, 0, ".", ",")
	if strings.Contains(test, ",") {
		t.Log(test)
		t.Error("unexpected ','")
	}
	test = DecimalToHumanFriendlyString(decimal.NewFromInt(100), 0, ".", ",")
	if strings.Contains(test, ",") {
		t.Log(test)
		t.Error("unexpected ','")
	}
	test = DecimalToHumanFriendlyString(decimal.NewFromInt(1000), 0, ".", ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}

	test = DecimalToHumanFriendlyString(decimal.NewFromFloat(1000.1337), 1, ".", ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}
	dec := strings.Split(test, ".")
	if len(dec) == 1 {
		t.Error("expected decimal place")
	}
	if dec[1] != "1" {
		t.Error("expected decimal place")
	}

	test = DecimalToHumanFriendlyString(decimal.NewFromFloat(-1000.1337), 1, ".", ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}

	test = DecimalToHumanFriendlyString(decimal.NewFromFloat(-1000.1337), 100000, ".", ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}

	test = DecimalToHumanFriendlyString(decimal.NewFromFloat(1000.1), 10, ".", ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}
	dec = strings.Split(test, ".")
	if len(dec) == 1 {
		t.Error("expected decimal place")
	}
	if dec[1] != "1" {
		t.Error("expected decimal place")
	}
}

func TestIntToHumanFriendlyString(t *testing.T) {
	t.Parallel()
	test := IntToHumanFriendlyString(0, ",")
	if strings.Contains(test, ",") {
		t.Log(test)
		t.Error("unexpected ','")
	}
	test = IntToHumanFriendlyString(100, ",")
	if strings.Contains(test, ",") {
		t.Log(test)
		t.Error("unexpected ','")
	}
	test = IntToHumanFriendlyString(1000, ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}

	test = IntToHumanFriendlyString(-1000, ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}

	test = IntToHumanFriendlyString(1000000, ",")
	if !strings.Contains(test, ",") {
		t.Error("expected ','")
	}
	dec := strings.Split(test, ",")
	if len(dec) <= 2 {
		t.Error("expected two commas place")
	}
}

func TestNumberToHumanFriendlyString(t *testing.T) {
	resp := numberToHumanFriendlyString("1", 1337, ".", ",", false)
	if strings.Contains(resp, ".") {
		t.Error("expected no comma")
	}
}

func TestInterfaceToFloat64OrZeroValue(t *testing.T) {
	var x interface{}
	if r := InterfaceToFloat64OrZeroValue(x); r != 0 {
		t.Errorf("expected 0, got: %v", r)
	}
	x = float64(420)
	if r := InterfaceToFloat64OrZeroValue(x); r != 420 {
		t.Errorf("expected 420, got: %v", x)
	}
}

func TestInterfaceToIntOrZeroValue(t *testing.T) {
	var x interface{}
	if r := InterfaceToIntOrZeroValue(x); r != 0 {
		t.Errorf("expected 0, got: %v", r)
	}
	x = int(420)
	if r := InterfaceToIntOrZeroValue(x); r != 420 {
		t.Errorf("expected 420, got: %v", x)
	}
}

func TestInterfaceToStringOrZeroValue(t *testing.T) {
	var x interface{}
	if r := InterfaceToStringOrZeroValue(x); r != "" {
		t.Errorf("expected empty string, got: %v", r)
	}
	x = string("meow")
	if r := InterfaceToStringOrZeroValue(x); r != "meow" {
		t.Errorf("expected meow, got: %v", x)
	}
}