widget: define incrementing combinedPos and test

This commit restructures seekPosition from a complex state-manipulating
loop into a simple loop of iteratively applying an increment operation
to the combinedPos. The increment operation itself is now tested, and
much easier to understand.

Signed-off-by: Chris Waldon <christopher.waldon.dev@gmail.com>
This commit is contained in:
Chris Waldon
2022-10-13 10:28:15 -04:00
committed by Elias Naur
parent 1be58a2bc4
commit b67b322978
3 changed files with 159 additions and 35 deletions
+45 -32
View File
@@ -1084,46 +1084,59 @@ func (e *Editor) closestPosition(pos combinedPos) combinedPos {
// seekPosition seeks to the position closest to needle, starting at start and returns true.
// If limit is non-zero, seekPosition stops seeks after limit runes and returns false.
func seekPosition(lines []text.Line, alignment text.Alignment, width int, start, needle combinedPos, limit int) (combinedPos, bool) {
l := lines[start.lineCol.Y]
count := 0
// Advance next and prev until next is greater than or equal to pos.
// Advance until start is greater than or equal to needle.
for {
start.clusterIndex = clusterIndexFor(l, start.lineCol.X, start.clusterIndex)
for ; start.lineCol.X < l.Layout.Runes.Count; start.lineCol.X++ {
cluster := l.Layout.Clusters[start.clusterIndex]
if start.runes >= cluster.Runes.Offset+cluster.Runes.Count {
start.clusterIndex++
cluster = l.Layout.Clusters[start.clusterIndex]
}
if limit != 0 && count == limit {
return start, false
}
count++
if positionGreaterOrEqual(lines, start, needle) {
return start, true
}
start.x += cluster.RuneWidth()
start.runes++
}
if start.lineCol.Y == len(lines)-1 {
// End of file.
if positionGreaterOrEqual(lines, start, needle) {
return start, true
}
prevDesc := l.Descent
start.lineCol.Y++
start.lineCol.X = 0
start.clusterIndex = 0
l = lines[start.lineCol.Y]
start.x = align(alignment, l.Layout.Direction, l.Width, width)
if l.Layout.Direction.Progression() == system.TowardOrigin {
start.x += l.Width
var eof bool
start, eof = incrementPosition(lines, alignment, width, start)
if eof {
return start, true
}
count++
if limit != 0 && count == limit {
return start, false
}
start.y += (prevDesc + l.Ascent).Ceil()
}
}
// incrementPosition updates pos to be one rune further into the text.
// All fields of pos must be valid before calling incrementPosition. eof will be true when
// pos represents the final text position in the lines.
func incrementPosition(lines []text.Line, alignment text.Alignment, width int, pos combinedPos) (_ combinedPos, eof bool) {
l := lines[pos.lineCol.Y]
handleLineTransition := func() bool {
if pos.lineCol.X >= l.Layout.Runes.Count {
if pos.lineCol.Y == len(lines)-1 {
// End of file.
return true
}
// Move to next line.
prevDesc := l.Descent
pos.lineCol.Y++
pos.lineCol.X = 0
pos.clusterIndex = 0
l = lines[pos.lineCol.Y]
// Use firstPos to get the correct x coordinate of the beginning of the line.
alignedPos := firstPos(l, alignment, width)
pos.x = alignedPos.x
pos.y += (prevDesc + l.Ascent).Ceil()
}
return false
}
if handleLineTransition() {
return pos, true
}
pos.x += l.Layout.Clusters[pos.clusterIndex].RuneWidth()
pos.runes++
pos.lineCol.X++
pos.clusterIndex = clusterIndexFor(l, pos.lineCol.X, pos.clusterIndex)
return pos, handleLineTransition()
}
// indexRune returns the latest rune index and byte offset no later than r.
func (e *Editor) indexRune(r int) offEntry {
// Initialize index.
+9
View File
@@ -32,11 +32,17 @@ type screenPos image.Point
const inf = 1e6
// posIsAbove returns whether the position described in pos by the lineCol and
// y fields is above the given y coordinate. It is invalid to call this function
// unless both the lineCol and (x,y) fields of pos are populated.
func posIsAbove(lines []text.Line, pos combinedPos, y int) bool {
line := lines[pos.lineCol.Y]
return pos.y+line.Bounds.Max.Y.Ceil() < y
}
// posIsAbove returns whether the position described in pos by the lineCol and
// y fields is below the given y coordinate. It is invalid to call this function
// unless both the lineCol and (x,y) fields of pos are populated.
func posIsBelow(lines []text.Line, pos combinedPos, y int) bool {
line := lines[pos.lineCol.Y]
return pos.y+line.Bounds.Min.Y.Floor() > y
@@ -84,6 +90,9 @@ func subLayout(line text.Line, start, end combinedPos) text.Layout {
//
// The results can be counterinuitive due to the fact that meaning
// of alignment changes depending on the text direction.
//
// The returned pos can be considered valid only for the first line
// of a body of text.
func firstPos(line text.Line, alignment text.Alignment, width int) combinedPos {
p := combinedPos{
x: align(alignment, line.Layout.Direction, line.Width, width),
+105 -3
View File
@@ -6,12 +6,13 @@ import (
nsareg "eliasnaur.com/font/noto/sans/arabic/regular"
"gioui.org/font/opentype"
"gioui.org/io/system"
"gioui.org/text"
"golang.org/x/image/font/gofont/goregular"
"golang.org/x/image/math/fixed"
)
func TestFirstPos(t *testing.T) {
func makeTestText(fontSize, lineWidth int) ([]text.Line, []text.Line) {
ltrFace, _ := opentype.Parse(goregular.TTF)
rtlFace, _ := opentype.Parse(nsareg.TTF)
@@ -25,11 +26,15 @@ func TestFirstPos(t *testing.T) {
Face: rtlFace,
},
})
fontSize := 16
lineWidth := int(fontSize) * 10
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")
return ltrText, rtlText
}
func TestFirstPos(t *testing.T) {
fontSize := 16
lineWidth := fontSize * 10
ltrText, rtlText := makeTestText(fontSize, lineWidth)
type testcase struct {
name string
line text.Line
@@ -142,3 +147,100 @@ func TestFirstPos(t *testing.T) {
}
}
}
func TestIncrementPosition(t *testing.T) {
fontSize := 16
lineWidth := fontSize * 3
ltrText, rtlText := makeTestText(fontSize, lineWidth)
type trial struct {
input, output combinedPos
}
type testcase struct {
name string
align text.Alignment
width int
lines []text.Line
firstInput combinedPos
check func(t *testing.T, iteration int, input, output combinedPos, end bool)
}
for _, tc := range []testcase{
{
name: "ltr",
align: text.Start,
width: lineWidth,
lines: ltrText,
firstInput: firstPos(ltrText[0], text.Start, lineWidth),
},
{
name: "rtl",
align: text.Start,
width: lineWidth,
lines: rtlText,
firstInput: firstPos(rtlText[0], text.Start, lineWidth),
},
} {
t.Run(tc.name, func(t *testing.T) {
input := tc.firstInput
for i := 0; true; i++ {
output, end := incrementPosition(tc.lines, tc.align, tc.width, input)
finalRunes := tc.lines[len(tc.lines)-1].Layout.Runes
finalRune := finalRunes.Count + finalRunes.Offset
if end && output.runes != finalRune {
t.Errorf("iteration %d ended prematurely. Has runes %d, expected %d", i, output.runes, finalRune)
}
if end {
break
}
if input == output {
t.Errorf("iteration %d: identical output:\ninput: %#+v\noutput: %#+v", i, input, output)
}
// We should always advance on either the X or Y axis.
if input.y == output.y {
expectedAdvance := tc.lines[input.lineCol.Y].Layout.Clusters[input.clusterIndex].Advance != 0
rtl := tc.lines[input.lineCol.Y].Layout.Direction.Progression() == system.TowardOrigin
if expectedAdvance {
if (rtl && input.x <= output.x) || (!rtl && input.x >= output.x) {
t.Errorf("iteration %d advanced the wrong way on x axis: input %v(%d) output %v(%d)", i, input.x, input.x, output.x, output.x)
}
} else if input.x != output.x {
t.Errorf("iteration %d advanced x axis when it should not have: input %v(%d) output %v(%d)", i, input.x, input.x, output.x, output.x)
}
// If we stayed on the same line, the line-local rune count should
// be incremented.
if input.lineCol.X >= output.lineCol.X {
t.Errorf("iteration %d advanced lineCol.X incorrectly: input %d output %d", i, input.lineCol.X, output.lineCol.X)
}
// We don't necessarily increment clusters every time, but it should never
// go down.
if input.clusterIndex > output.clusterIndex {
t.Errorf("iteration %d advanced clusterIndex incorrectly: input %d output %d", i, input.clusterIndex, output.clusterIndex)
}
} else {
if input.y >= output.y {
t.Errorf("iteration %d advanced the wrong way on y axis: input %v(%d) output %v(%d)", i, input.y, input.y, output.y, output.y)
} else {
// We correctly advanced on Y axis, so X should be reset to "start of line"
// for the text direction.
rtl := tc.lines[input.lineCol.Y].Layout.Direction.Progression() == system.TowardOrigin
if (rtl && input.x >= output.x) || (!rtl && input.x <= output.x) {
t.Errorf("iteration %d reset x axis incorrectly: input %v(%d) output %v(%d)", i, input.x, input.x, output.x, output.x)
}
}
if input.lineCol.Y >= output.lineCol.Y {
t.Errorf("iteration %d advanced lineCol.Y incorrectly: input %d output %d", i, input.lineCol.Y, output.lineCol.Y)
}
if output.clusterIndex != 0 {
t.Errorf("iteration %d should have zeroed clusterIndex, got: %d", i, output.clusterIndex)
}
if output.lineCol.X != 0 {
t.Errorf("iteration %d should have zeroed lineCol.X, got: %d", i, output.lineCol.X)
}
}
if output.runes != input.runes+1 {
t.Errorf("iteration %d advanced runes incorrectly: input %d output %d", i, input.runes, output.runes)
}
input = output
}
})
}
}