package formatter import ( "io" "os" "strings" "sync" "testing" "git.thomasvoss.com/gsp/parser" ) var ( stdoutMutex sync.Mutex r *os.File w *os.File stdout *os.File ) func redirectStdout() { stdoutMutex.Lock() stdout = os.Stdout r, w, _ = os.Pipe() os.Stdout = w } func restoreAndCapture() string { defer stdoutMutex.Unlock() w.Close() out, _ := io.ReadAll(r) os.Stdout = stdout return string(out) } func TestPrintAst(t *testing.T) { s := ` html lang="en" { >head attr { >title {- My Website } meta x="y"{} } >body { >div #some-id{} div key="val" .class-1 .class-2 { p {- This is some @em{-emphatic} text } } tags key = "Some long value" {} } }` result := ` My Website

This is some emphatic text

` // Write the source to a temp file r := strings.NewReader(s) f, _ := os.CreateTemp("", "tmp*") defer f.Close() io.Copy(f, r) f.Seek(0, 0) ast, _ := parser.ParseFile(f) redirectStdout() PrintAst(ast) out := restoreAndCapture() if out != result { t.Fatalf("PrintAst() printed unexpected string ‘%s’", out) } } func TestPrintAttrs_nClasses(t *testing.T) { redirectStdout() printAttrs([]parser.Attr{ { Key: "foo", Value: "b&r", }, { Key: "baz", }, { Key: "hello", Value: "", }, { Key: "class", Value: "b&z", }, }) out := restoreAndCapture() if out != " class=\""foo" <bar> b&z\"" { t.Fatalf("printAttrs() printed unexpected string ‘%s’", out) } } func TestPrintAttrs_mixedAttrs(t *testing.T) { redirectStdout() printAttrs([]parser.Attr{ { Key: "foo", Value: "bar", }, { Key: "baz", }, { Key: "class", Value: "foo", }, { Key: "hello", Value: "world", }, { Key: "class", Value: "bar", }, { Key: "class", Value: "baz", }, }) out := restoreAndCapture() if out != " class=\"foo bar baz\" foo=\"bar\" baz hello=\"world\"" { t.Fatalf("printAttrs() printed unexpected string ‘%s’", out) } } func TestPrintText(t *testing.T) { redirectStdout() printText("'Hello' there to you & \"world\"!") out := restoreAndCapture() if out != "'Hello' <em>there</em> to you & "world"!" { t.Fatalf("printText() printed unexpected string ‘%s’", out) } } func TestPrintChildrenTextOnly(t *testing.T) { redirectStdout() printChildren([]parser.AstNode{ { Type: parser.Text, Text: " \t\x0A Hello ", }, { Type: parser.Text, Text: " There ", }, { Type: parser.Text, Text: " World \x0A\t ", }, }) out := restoreAndCapture() if out != " \t\x0A Hello There World \x0A\t " { t.Fatalf("printChildren() printed unexpected string ‘%s’", out) } } func TestPrintChildrenTrimMixed(t *testing.T) { redirectStdout() children := []parser.AstNode{ { Type: parser.Tagless, Children: []parser.AstNode{ { Type: parser.Text, Text: " Hello World", }, }, }, } printChildrenTrim([]parser.AstNode{ { Type: parser.Normal, Text: "em", Children: children, }, { Type: parser.Text, Text: "Foo Bar ", }, }) out := restoreAndCapture() if out != " Hello WorldFoo Bar" { t.Fatalf("printChildrenTrim() printed unexpected string ‘%s’", out) } } func TestPrintChildrenTrimTextOnly(t *testing.T) { redirectStdout() printChildrenTrim([]parser.AstNode{ { Type: parser.Text, Text: " \t\x0A Hello ", }, { Type: parser.Text, Text: " There ", }, { Type: parser.Text, Text: " World \x0A\t ", }, }) out := restoreAndCapture() if out != "Hello There World" { t.Fatalf("printChildrenTrim() printed unexpected string ‘%s’", out) } } func TestTrimLeftSpaces(t *testing.T) { sx := " \t \x0AHello World\x0A \t " sy := "Hello World\x0A \t " if sz := trimLeftSpaces(sx); sz != sy { t.Fatalf("trimLeftSpaces() returned ‘%s’", sy) } } func TestTrimRightSpaces(t *testing.T) { sx := " \t \x0AHello World\x0A \t " sy := " \t \x0AHello World" if sz := trimRightSpaces(sx); sz != sy { t.Fatalf("trimRightSpaces() returned ‘%s’", sy) } }