widget: test positionGreaterOrEqual

This commit adds an exhaustive test case for the positionGreaterOrEqual
helper function that our text widgets use to compare locations within
shaped text.

Signed-off-by: Chris Waldon <christopher.waldon.dev@gmail.com>
This commit is contained in:
Chris Waldon
2022-10-13 13:35:48 -04:00
committed by Elias Naur
parent 64db3720fc
commit dee3cc44f9
2 changed files with 93 additions and 7 deletions
+2 -1
View File
@@ -1000,7 +1000,8 @@ func (e *Editor) indexPosition(pos combinedPos) combinedPos {
}
// positionGreaterOrEqual reports whether p1 >= p2 according to the non-zero fields
// of p2. All fields of p1 must be a consistent and valid.
// of p2. All fields of p1 must be a consistent and valid. The clusterIndex field
// is never considered, as it is a line-local property.
func positionGreaterOrEqual(lines []text.Line, p1, p2 combinedPos) bool {
l := lines[p1.lineCol.Y]
endCol := l.Layout.Runes.Count - 1
+91 -6
View File
@@ -12,7 +12,10 @@ import (
"golang.org/x/image/math/fixed"
)
func makeTestText(fontSize, lineWidth int) ([]text.Line, []text.Line) {
// makeTestText returns an ltr and rtl sample of shaped text at the given
// font size and wrapped to the given line width. The runeLimit, if nonzero,
// truncates the sample text to ensure shorter output for expensive tests.
func makeTestText(fontSize, lineWidth, runeLimit int) ([]text.Line, []text.Line) {
ltrFace, _ := opentype.Parse(goregular.TTF)
rtlFace, _ := opentype.Parse(nsareg.TTF)
@@ -26,15 +29,27 @@ func makeTestText(fontSize, lineWidth int) ([]text.Line, []text.Line) {
Face: rtlFace,
},
})
ltrText := shaper.LayoutString(text.Font{Typeface: "LTR"}, fixed.I(fontSize), lineWidth, english, "The quick brown fox\njumps over the lazy dog.")
rtlText := shaper.LayoutString(text.Font{Typeface: "RTL"}, fixed.I(fontSize), lineWidth, arabic, "الحب سماء لا\nتمط غير الأحلام")
ltrSource := "The quick brown fox\njumps over the lazy dog."
rtlSource := "الحب سماء لا\nتمط غير الأحلام"
if runeLimit != 0 {
ltrRunes := []rune(ltrSource)
rtlRunes := []rune(rtlSource)
if runeLimit < len(ltrRunes) {
ltrSource = string(ltrRunes[:runeLimit])
}
if runeLimit < len(rtlRunes) {
rtlSource = string(rtlRunes[:runeLimit])
}
}
ltrText := shaper.LayoutString(text.Font{Typeface: "LTR"}, fixed.I(fontSize), lineWidth, english, ltrSource)
rtlText := shaper.LayoutString(text.Font{Typeface: "RTL"}, fixed.I(fontSize), lineWidth, arabic, rtlSource)
return ltrText, rtlText
}
func TestFirstPos(t *testing.T) {
fontSize := 16
lineWidth := fontSize * 10
ltrText, rtlText := makeTestText(fontSize, lineWidth)
ltrText, rtlText := makeTestText(fontSize, lineWidth, 0)
type testcase struct {
name string
line text.Line
@@ -151,7 +166,7 @@ func TestFirstPos(t *testing.T) {
func TestIncrementPosition(t *testing.T) {
fontSize := 16
lineWidth := fontSize * 3
ltrText, rtlText := makeTestText(fontSize, lineWidth)
ltrText, rtlText := makeTestText(fontSize, lineWidth, 0)
type trial struct {
input, output combinedPos
}
@@ -248,7 +263,7 @@ func TestIncrementPosition(t *testing.T) {
func TestClusterIndexFor(t *testing.T) {
fontSize := 16
lineWidth := fontSize * 3
ltrText, rtlText := makeTestText(fontSize, lineWidth)
ltrText, rtlText := makeTestText(fontSize, lineWidth, 0)
type input struct {
runeIdx int
clusterStartIdx int
@@ -355,3 +370,73 @@ func TestClusterIndexFor(t *testing.T) {
}
}
}
func TestPositionGreaterOrEqual(t *testing.T) {
fontSize := 16
lineWidth := fontSize * 10
// Be careful tuning the runeLimit here. This test case's complexity
// is O(N^2) where N=runeLimit. It's easy to make this test take a stupid
// amount of time accidentally.
ltrText, rtlText := makeTestText(fontSize, lineWidth, 15)
type testcase struct {
name string
lines []text.Line
align text.Alignment
width int
}
for _, tc := range []testcase{
{
name: "ltr",
lines: ltrText,
align: text.Start,
width: lineWidth,
},
{
name: "rtl",
lines: rtlText,
align: text.Start,
width: lineWidth,
},
} {
finalLineRunes := tc.lines[len(tc.lines)-1].Layout.Runes
// Statically generate all valid positions.
positions := make([]combinedPos, finalLineRunes.Offset+finalLineRunes.Count+1)
positions[0] = firstPos(tc.lines[0], tc.align, tc.width)
for i := 1; i < len(positions); i++ {
positions[i], _ = incrementPosition(tc.lines, tc.align, tc.width, positions[i-1])
}
// For each valid position, check every other valid position returns the correct
// result with each permutation of populated fields.
for i, p1 := range positions {
for k, p2 := range positions {
t.Run(tc.name+" "+strconv.Itoa(i)+">="+strconv.Itoa(k), func(t *testing.T) {
for kind := 0; kind < 3; kind++ {
p2 := p2
transform := ""
switch kind {
case 0: // only runes populated
transform = "runes only"
p2.lineCol = screenPos{}
p2.x = 0
p2.y = 0
case 1: // only lineCol populated
transform = "lineCol only"
p2.runes = 0
p2.x = 0
p2.y = 0
case 2: // only x and y populated
transform = "x,y only"
p2.runes = 0
p2.lineCol = screenPos{}
}
isGreaterOrEqual := i >= k
result := positionGreaterOrEqual(tc.lines, p1, p2)
if result != isGreaterOrEqual {
t.Errorf("unexpected result comparing p[%d] >= p[%d](%s) (%v)\np1: %#+v\np2:%#+v", i, k, transform, result, p1, p2)
}
}
})
}
}
}
}