package fzf import ( "fmt" "testing" ) func TestExtractColor(t *testing.T) { assert := func(offset ansiOffset, b int32, e int32, fg int, bg int, bold bool) { if offset.offset[0] != b || offset.offset[1] != e || offset.color.fg != fg || offset.color.bg != bg || offset.color.bold != bold { t.Error(offset, b, e, fg, bg, bold) } } src := "hello world" clean := "\x1b[0m" check := func(assertion func(ansiOffsets []ansiOffset)) { output, ansiOffsets := extractColor(&src) if *output != "hello world" { t.Errorf("Invalid output: {}", output) } fmt.Println(src, ansiOffsets, clean) assertion(ansiOffsets) } check(func(offsets []ansiOffset) { if len(offsets) > 0 { t.Fail() } }) src = "\x1b[0mhello world" check(func(offsets []ansiOffset) { if len(offsets) > 0 { t.Fail() } }) src = "\x1b[1mhello world" check(func(offsets []ansiOffset) { if len(offsets) != 1 { t.Fail() } assert(offsets[0], 0, 11, -1, -1, true) }) src = "\x1b[1mhello \x1b[mworld" check(func(offsets []ansiOffset) { if len(offsets) != 1 { t.Fail() } assert(offsets[0], 0, 6, -1, -1, true) }) src = "\x1b[1mhello \x1b[Kworld" check(func(offsets []ansiOffset) { if len(offsets) != 1 { t.Fail() } assert(offsets[0], 0, 11, -1, -1, true) }) src = "hello \x1b[34;45;1mworld" check(func(offsets []ansiOffset) { if len(offsets) != 1 { t.Fail() } assert(offsets[0], 6, 11, 4, 5, true) }) src = "hello \x1b[34;45;1mwor\x1b[34;45;1mld" check(func(offsets []ansiOffset) { if len(offsets) != 1 { t.Fail() } assert(offsets[0], 6, 11, 4, 5, true) }) src = "hello \x1b[34;45;1mwor\x1b[0mld" check(func(offsets []ansiOffset) { if len(offsets) != 1 { t.Fail() } assert(offsets[0], 6, 9, 4, 5, true) }) src = "hello \x1b[34;48;5;233;1mwo\x1b[38;5;161mr\x1b[0ml\x1b[38;5;161md" check(func(offsets []ansiOffset) { if len(offsets) != 3 { t.Fail() } assert(offsets[0], 6, 8, 4, 233, true) assert(offsets[1], 8, 9, 161, 233, true) assert(offsets[2], 10, 11, 161, -1, false) }) // {38,48};5;{38,48} src = "hello \x1b[38;5;38;48;5;48;1mwor\x1b[38;5;48;48;5;38ml\x1b[0md" check(func(offsets []ansiOffset) { if len(offsets) != 2 { t.Fail() } assert(offsets[0], 6, 9, 38, 48, true) assert(offsets[1], 9, 10, 48, 38, true) }) }