package util
import (
"strings"
"testing"
)
func TestTextWrap(t *testing.T) {
cases := []struct {
Input, Output string
Lim int
}{
// A simple word passes through.
{
"foo",
"foo",
4,
},
// Word breaking
{
"foobarbaz",
"foob\narba\nz",
4,
},
// Lines are broken at whitespace.
{
"foo bar baz",
"foo\nbar\nbaz",
4,
},
// Word breaking
{
"foo bars bazzes",
"foo\nbars\nbazz\nes",
4,
},
// A word that would run beyond the width is wrapped.
{
"fo sop",
"fo\nsop",
4,
},
// A tab counts as 4 characters.
{
"foo\nb\t r\n baz",
"foo\nb\n r\n baz",
4,
},
// Trailing whitespace is removed after used for wrapping.
// Runs of whitespace on which a line is broken are removed.
{
"foo \nb ar ",
"foo\n\nb\nar\n",
4,
},
// An explicit line break at the end of the input is preserved.
{
"foo bar baz\n",
"foo\nbar\nbaz\n",
4,
},
// Explicit break are always preserved.
{
"\nfoo bar\n\n\nbaz\n",
"\nfoo\nbar\n\n\nbaz\n",
4,
},
// Ignore complete words with terminal color sequence
{
"foo \x1b[31mbar\x1b[0m baz",
"foo\n\x1b[31mbar\x1b[0m\nbaz",
4,
},
// Handle words with colors sequence inside the word
{
"foo b\x1b[31mbar\x1b[0mr baz",
"foo\nb\x1b[31mbar\n\x1b[0mr\nbaz",
4,
},
// Break words with colors sequence inside the word
{
"foo bb\x1b[31mbar\x1b[0mr baz",
"foo\nbb\x1b[31mba\nr\x1b[0mr\nbaz",
4,
},
// Complete example:
{
" This is a list: \n\n\t* foo\n\t* bar\n\n\n\t* baz \nBAM ",
" This\nis a\nlist:\n\n\n *\nfoo\n *\nbar\n\n\n *\nbaz\nBAM\n",
6,
},
}
for i, tc := range cases {
actual, lines := TextWrap(tc.Input, tc.Lim)
if actual != tc.Output {
t.Fatalf("Case %d Input:\n\n`%s`\n\nExpected Output:\n\n`%s`\n\nActual Output:\n\n`%s`",
i, tc.Input, tc.Output, actual)
}
expected := len(strings.Split(tc.Output, "\n"))
if expected != lines {
t.Fatalf("Case %d Nb lines mismatch\nExpected:%d\nActual:%d",
i, expected, lines)
}
}
}
func TestWordLen(t *testing.T) {
cases := []struct {
Input string
Length int
}{
// A simple word
{
"foo",
3,
},
// A simple word with colors
{
"\x1b[31mbar\x1b[0m",
3,
},
// Handle prefix and suffix properly
{
"foo\x1b[31mfoobarHoy\x1b[0mbaaar",
17,
},
}
for i, tc := range cases {
l := wordLen(tc.Input)
if l != tc.Length {
t.Fatalf("Case %d Input:\n\n`%s`\n\nExpected Output:\n\n`%d`\n\nActual Output:\n\n`%d`",
i, tc.Input, tc.Length, l)
}
}
}
func TestSplitWord(t *testing.T) {
cases := []struct {
Input string
Length int
Result, Leftover string
}{
// A simple word passes through.
{
"foo",
4,
"foo", "",
},
// Cut at the right place
{
"foobarHoy",
4,
"foob", "arHoy",
},
// A simple word passes through with colors
{
"\x1b[31mbar\x1b[0m",
4,
"\x1b[31mbar\x1b[0m", "",
},
// Cut at the right place with colors
{
"\x1b[31mfoobarHoy\x1b[0m",
4,
"\x1b[31mfoob", "arHoy\x1b[0m",
},
// Handle prefix and suffix properly
{
"foo\x1b[31mfoobarHoy\x1b[0mbaaar",
4,
"foo\x1b[31mf", "oobarHoy\x1b[0mbaaar",
},
// Cut properly with length = 0
{
"foo",
0,
"", "foo",
},
}
for i, tc := range cases {
result, leftover := splitWord(tc.Input, tc.Length)
if result != tc.Result || leftover != tc.Leftover {
t.Fatalf("Case %d Input:\n\n`%s`\n\nExpected Output:\n\n`%s` - `%s`\n\nActual Output:\n\n`%s` - `%s`",
i, tc.Input, tc.Result, tc.Leftover, result, leftover)
}
}
}