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generator_test.go
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generator_test.go
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package fname
import (
"strings"
"testing"
)
func TestNewGenerator(t *testing.T) {
t.Log("Given the need to test the NewGenerator function")
{
t.Log("\tWhen creating a new Generator with default values")
{
g := NewGenerator()
if g == nil {
t.Fatal("\t\tShould be able to create a Generator instance.")
}
t.Log("\t\tShould be able to create a Generator instance.")
if g.dict == nil {
t.Fatal("\t\tShould be able to create a Dictionary instance.")
}
t.Log("\t\tShould be able to create a Dictionary instance.")
}
t.Log("\tWhen creating a new Generator with custom values")
{
g := NewGenerator(WithCasing(Title), WithDelimiter("_"), WithSize(3), WithSeed(12345))
if g == nil {
t.Fatal("\t\tShould be able to create a Generator instance.")
}
t.Log("\t\tShould be able to create a Generator instance.")
if g.casing != Title {
t.Error("\t\tShould be able to set the casing.")
}
if g.size != 3 {
t.Fatal("\t\tShould be able to set the size of the phrase.")
}
t.Log("\t\tShould be able to set the size of the phrase.")
if g.delimiter != "_" {
t.Fatal("\t\tShould be able to set the delimiter of the phrase.")
}
t.Log("\t\tShould be able to set the delimiter of the phrase.")
}
}
}
func TestGenerate(t *testing.T) {
t.Log("Given the need to test the Generate function")
{
t.Log("\tWhen generating a phrase")
{
g := NewGenerator()
phrase, err := g.Generate()
if err != nil {
t.Fatal("\t\tShould be able to generate a phrase without error.")
}
t.Log("\t\tShould be able to generate a phrase without error.")
if len(phrase) == 0 {
t.Fatal("\t\tShould be able to generate a phrase of non-zero length.")
}
t.Log("\t\tShould be able to generate a phrase of non-zero length.")
parts := strings.Split(phrase, "-")
if len(parts) != 2 {
t.Fatal("\t\tShould be able to generate a phrase with 2 parts.")
}
t.Log("\t\tShould be able to generate a phrase with 2 parts.")
}
t.Log("\tWhen generating a phrase with a custom case")
{
g := NewGenerator(WithCasing(Title))
phrase, err := g.Generate()
if err != nil {
t.Fatal("\t\tShould be able to generate a phrase without error.")
}
t.Log("\t\tShould be able to generate a phrase without error.")
c := phrase[0]
if c < 'A' || c > 'Z' {
t.Fatal("\t\tShould be able to generate a phrase with a title case.")
}
}
t.Log("\tWhen generating a phrase with a custom delimiter")
{
g := NewGenerator(WithDelimiter("_"))
phrase, err := g.Generate()
if err != nil {
t.Fatal("\t\tShould be able to generate a phrase without error.")
}
t.Log("\t\tShould be able to generate a phrase without error.")
if len(phrase) == 0 {
t.Fatal("\t\tShould be able to generate a phrase of non-zero length.")
}
t.Log("\t\tShould be able to generate a phrase of non-zero length.")
parts := strings.Split(phrase, "_")
if len(parts) != 2 {
t.Fatal("\t\tShould be able to generate a phrase with 2 parts.")
}
t.Log("\t\tShould be able to generate a phrase with 2 parts.")
if !strings.Contains(phrase, "_") {
t.Fatal("\t\tShould be able to generate a phrase with the custom delimiter.")
}
t.Log("\t\tShould be able to generate a phrase with the custom delimiter.")
}
t.Log("\tWhen generating a phrase with a custom size")
{
g3 := NewGenerator(WithSize(3))
phrase, err := g3.Generate()
if err != nil {
t.Fatal("\t\tShould be able to generate a phrase without error.")
}
t.Log("\t\tShould be able to generate a phrase without error.")
if len(phrase) == 0 {
t.Fatal("\t\tShould be able to generate a phrase of non-zero length.")
}
t.Log("\t\tShould be able to generate a phrase of non-zero length.")
parts := strings.Split(phrase, "-")
if len(parts) != 3 {
t.Fatal("\t\tShould be able to generate a phrase with 3 parts.")
}
t.Log("\t\tShould be able to generate a phrase with 3 parts.")
g4 := NewGenerator(WithSize(4))
phrase, err = g4.Generate()
if err != nil {
t.Fatal("\t\tShould be able to generate a phrase without error.")
}
t.Log("\t\tShould be able to generate a phrase without error.")
if len(phrase) == 0 {
t.Fatal("\t\tShould be able to generate a phrase of non-zero length.")
}
t.Log("\t\tShould be able to generate a phrase of non-zero length.")
parts = strings.Split(phrase, "-")
if len(parts) != 4 {
t.Fatal("\t\tShould be able to generate a phrase with 4 parts.")
}
t.Log("\t\tShould be able to generate a phrase with 4 parts.")
}
t.Log("\tWhen generating a phrase with a custom seed")
{
g1 := NewGenerator(WithSeed(12345))
phrase1, err := g1.Generate()
if err != nil {
t.Fatal("\t\tShould be able to generate a phrase without error.")
}
t.Log("\t\tShould be able to generate a phrase without error.")
g2 := NewGenerator(WithSeed(12345))
phrase2, err := g2.Generate()
if err != nil {
t.Fatal("\t\tShould be able to generate a phrase without error.")
}
t.Log("\t\tShould be able to generate a phrase without error.")
if phrase1 != phrase2 {
t.Fatal("\t\tShould be able to generate the same phrase with the same seed.")
}
t.Log("\t\tShould be able to generate the same phrase with the same seed.")
}
t.Log("\tWhen generating a phrase with an invalid size")
{
g := NewGenerator(WithSize(1))
_, err := g.Generate()
if err == nil {
t.Fatal("\t\tShould not be able to generate a phrase with an invalid size.")
}
t.Log("\t\tShould not be able to generate a phrase with an invalid size.")
}
}
}
func TestCasingFromString(t *testing.T) {
t.Log("Given the need to parse casing strings")
{
t.Log("\tWhen parsing a valid casing string")
{
testCases := []struct {
name string
c Casing
}{
{"lower", Lower},
{"upper", Upper},
{"title", Title},
}
for _, tc := range testCases {
c, err := CasingFromString(tc.name)
if err != nil {
t.Fatalf("\t\tShould be able to parse a valid casing string : %v", err)
}
t.Log("\t\tShould be able to parse a valid casing string")
if c != tc.c {
t.Fatalf("\t\tShould be able to parse a valid casing string : got %v, want %v", c, tc.c)
}
t.Log("\t\tShould be able to parse a valid casing string")
}
}
t.Log("\tWhen parsing an invalid casing string")
{
_, err := CasingFromString("invalid")
if err == nil {
t.Fatal("\t\tShould not be able to parse an invalid casing string")
}
t.Log("\t\tShould not be able to parse an invalid casing string")
}
}
}