SimpleCloudNotifier/scnserver/test/util/common.go

367 lines
8.0 KiB
Go

package util
import (
"fmt"
"github.com/gin-gonic/gin"
"gogs.mikescher.com/BlackForestBytes/goext/langext"
"math"
"reflect"
"runtime/debug"
"strings"
"testing"
)
func AssertJsonMapEqual(t *testing.T, key string, expected map[string]any, actual map[string]any) {
mkeys := make(map[string]string)
for k := range expected {
mkeys[k] = k
}
for k := range actual {
mkeys[k] = k
}
for mapkey := range mkeys {
if _, ok := expected[mapkey]; !ok {
TestFailFmt(t, "Missing Key expected['%s'] ( assertJsonMapEqual[%s] )", mapkey, key)
}
if _, ok := actual[mapkey]; !ok {
TestFailFmt(t, "Missing Key actual['%s'] ( assertJsonMapEqual[%s] )", mapkey, key)
}
AssertEqual(t, key+"."+mapkey, expected[mapkey], actual[mapkey])
}
}
func AssertEqual(t *testing.T, key string, expected any, actual any) {
// try to fix types, kinda hacky, but its only unit tests...
switch vex := expected.(type) {
case int:
switch vac := actual.(type) {
case int:
// same
case int32:
expected = int64(vex)
actual = int64(vac)
case int64:
expected = int64(vex)
case float32:
if IsWholeFloat(vac) {
expected = int64(vex)
actual = int64(vac)
}
case float64:
if IsWholeFloat(vac) {
expected = int64(vex)
actual = int64(vac)
}
}
case int32:
switch vac := actual.(type) {
case int:
expected = int64(vex)
actual = int64(vac)
case int32:
// same
case int64:
expected = int64(vex)
case float32:
if IsWholeFloat(vac) {
expected = int64(vex)
actual = int64(vac)
}
case float64:
if IsWholeFloat(vac) {
expected = int64(vex)
actual = int64(vac)
}
}
case int64:
switch vac := actual.(type) {
case int:
actual = int64(vac)
case int32:
actual = int64(vac)
case int64:
// same
case float32:
if IsWholeFloat(vac) {
actual = int64(vac)
}
case float64:
if IsWholeFloat(vac) {
actual = int64(vac)
}
}
case float32:
switch vac := actual.(type) {
case int:
if IsWholeFloat(vex) {
expected = int64(vex)
actual = int64(vac)
}
case int32:
if IsWholeFloat(vex) {
expected = int64(vex)
actual = int64(vac)
}
case int64:
if IsWholeFloat(vex) {
expected = int64(vex)
}
case float32:
// same
case float64:
expected = float64(vex)
}
case float64:
switch vac := actual.(type) {
case int:
if IsWholeFloat(vex) {
expected = int64(vex)
actual = int64(vac)
}
case int32:
if IsWholeFloat(vex) {
expected = int64(vex)
actual = int64(vac)
}
case int64:
if IsWholeFloat(vex) {
expected = int64(vex)
}
case float32:
actual = float64(vac)
case float64:
// same
}
}
if langext.IsNil(expected) && langext.IsNil(actual) {
return
}
if expected != actual {
t.Errorf("Value [%s] differs (%T <-> %T):\n", key, expected, actual)
strExp := fmt.Sprintf("%v", expected)
strAct := fmt.Sprintf("%v", actual)
if strings.Contains(strAct, "\n") {
t.Errorf("Actual:\n~~~~~~~~~~~~~~~~\n%v\n~~~~~~~~~~~~~~~~\n\n", actual)
} else {
t.Errorf("Actual := \"%v\"\n", actual)
}
if strings.Contains(strExp, "\n") {
t.Errorf("Expected:\n~~~~~~~~~~~~~~~~\n%v\n~~~~~~~~~~~~~~~~\n\n", expected)
} else {
t.Errorf("Expected := \"%v\"\n", expected)
}
t.Error(string(debug.Stack()))
t.FailNow()
}
}
func AssertTrue(t *testing.T, key string, v bool) {
if !v {
t.Errorf("AssertTrue(%s) failed", key)
t.Error(string(debug.Stack()))
t.FailNow()
}
}
func AssertNotEqual(t *testing.T, key string, expected any, actual any) {
if expected == actual || (langext.IsNil(expected) && langext.IsNil(actual)) {
t.Errorf("Value [%s] does not differ (%T <-> %T):\n", key, expected, actual)
str1 := fmt.Sprintf("%v", expected)
str2 := fmt.Sprintf("%v", actual)
if strings.Contains(str1, "\n") {
t.Errorf("Actual:\n~~~~~~~~~~~~~~~~\n%v\n~~~~~~~~~~~~~~~~\n\n", expected)
} else {
t.Errorf("Actual := \"%v\"\n", expected)
}
if strings.Contains(str2, "\n") {
t.Errorf("Not Expected:\n~~~~~~~~~~~~~~~~\n%v\n~~~~~~~~~~~~~~~~\n\n", actual)
} else {
t.Errorf("Not Expected := \"%v\"\n", actual)
}
t.Error(string(debug.Stack()))
t.FailNow()
}
}
func AssertStrRepEqual(t *testing.T, key string, expected any, actual any) {
strExp := fmt.Sprintf("%v", unpointer(expected))
strAct := fmt.Sprintf("%v", unpointer(actual))
if strAct != strExp {
t.Errorf("Value [%s] differs (%T <-> %T):\n", key, expected, actual)
if strings.Contains(strAct, "\n") {
t.Errorf("Actual:\n~~~~~~~~~~~~~~~~\n%v\n~~~~~~~~~~~~~~~~\n\n", strAct)
} else {
t.Errorf("Actual := \"%v\"\n", strAct)
}
if strings.Contains(strExp, "\n") {
t.Errorf("Expected:\n~~~~~~~~~~~~~~~~\n%v\n~~~~~~~~~~~~~~~~\n\n", strExp)
} else {
t.Errorf("Expected := \"%v\"\n", strExp)
}
t.Error(string(debug.Stack()))
t.FailNow()
}
}
func AssertNotStrRepEqual(t *testing.T, key string, expected any, actual any) {
strExp := fmt.Sprintf("%v", unpointer(expected))
strAct := fmt.Sprintf("%v", unpointer(actual))
if strAct == strExp {
t.Errorf("Value [%s] does not differ (%T <-> %T):\n", key, expected, actual)
if strings.Contains(strAct, "\n") {
t.Errorf("Actual:\n~~~~~~~~~~~~~~~~\n%v\n~~~~~~~~~~~~~~~~\n\n", strAct)
} else {
t.Errorf("Actual := \"%v\"\n", strAct)
}
if strings.Contains(strExp, "\n") {
t.Errorf("Expected:\n~~~~~~~~~~~~~~~~\n%v\n~~~~~~~~~~~~~~~~\n\n", strExp)
} else {
t.Errorf("Expected := \"%v\"\n", strExp)
}
t.Error(string(debug.Stack()))
t.FailNow()
}
}
func TestFail(t *testing.T, msg string) {
t.Error(msg)
t.Error(string(debug.Stack()))
t.FailNow()
}
func TestFailFmt(t *testing.T, format string, args ...any) {
t.Errorf(format, args...)
t.Error(string(debug.Stack()))
t.FailNow()
}
func TestFailErr(t *testing.T, e error) {
t.Error(fmt.Sprintf("Failed with error:\n%s\n\nError:\n%+v\n\nTrace:\n%s", e.Error(), e, string(debug.Stack())))
t.Error(string(debug.Stack()))
t.FailNow()
}
func TestFailIfErr(t *testing.T, e error) {
if e != nil {
TestFailErr(t, e)
}
}
func AssertArrAny[T any](t *testing.T, key string, arr []T, fn func(T) bool) {
if !langext.ArrAny(arr, fn) {
t.Errorf("AssertArrAny(%s) failed", key)
t.Error(string(debug.Stack()))
t.FailNow()
}
}
func unpointer(v any) any {
if v == nil {
return v
}
val := reflect.ValueOf(v)
if val.Kind() == reflect.Ptr {
if val.IsNil() {
return v
}
val = val.Elem()
return unpointer(val.Interface())
}
return v
}
func AssertMultiNonEmpty(t *testing.T, key string, args ...any) {
for i := 0; i < len(args); i++ {
reflval := reflect.ValueOf(args[i])
if args[i] == nil || reflval.IsZero() {
t.Errorf("Value %s[%d] is empty (AssertMultiNonEmpty)", key, i)
t.FailNow()
}
}
}
func AssertMappedSet[T langext.OrderedConstraint](t *testing.T, key string, expected []T, values []gin.H, objkey string) {
actual := make([]T, 0)
for idx, vv := range values {
if tv, ok := vv[objkey].(T); ok {
actual = append(actual, tv)
} else {
TestFailFmt(t, "[%s]->[%d] is wrong type (expected: %T, actual: %T)", key, idx, *new(T), vv)
}
}
langext.Sort(actual)
langext.Sort(expected)
if !langext.ArrEqualsExact(actual, expected) {
t.Errorf("Value [%s] differs (%T <-> %T):\n", key, expected, actual)
t.Errorf("Actual := [%v]\n", actual)
t.Errorf("Expected := [%v]\n", expected)
t.Error(string(debug.Stack()))
t.FailNow()
}
}
func AssertMappedArr[T langext.OrderedConstraint](t *testing.T, key string, expected []T, values []gin.H, objkey string) {
actual := make([]T, 0)
for idx, vv := range values {
if tv, ok := vv[objkey].(T); ok {
actual = append(actual, tv)
} else {
TestFailFmt(t, "[%s]->[%d] is wrong type (expected: %T, actual: %T)", key, idx, *new(T), vv)
}
}
if !langext.ArrEqualsExact(actual, expected) {
t.Errorf("Value [%s] differs (%T <-> %T):\n", key, expected, actual)
t.Errorf("Actual := [%v]\n", actual)
t.Errorf("Expected := [%v]\n", expected)
t.Error(string(debug.Stack()))
t.FailNow()
}
}
func IsWholeFloat[T langext.FloatConstraint](v T) bool {
_, frac := math.Modf(math.Abs(float64(v)))
return frac == 0.0
}