1
0
Fork 0
mirror of https://codeberg.org/forgejo/forgejo.git synced 2024-11-30 09:41:11 -05:00
forgejo/vendor/github.com/yuin/goldmark/text/segment.go
zeripath 27757714d0 Change markdown rendering from blackfriday to goldmark (#9533)
* Move to goldmark

Markdown rendering moved from blackfriday to the goldmark.

Multiple subtle changes required to the goldmark extensions to keep
current rendering and defaults.

Can go further with goldmark linkify and have this work within markdown
rendering making the link processor unnecessary.

Need to think about how to go about allowing extensions - at present it
seems that these would be hard to do without recompilation.

* linter fixes

Co-authored-by: Lauris BH <lauris@nix.lv>
2019-12-31 03:53:28 +02:00

209 lines
4.7 KiB
Go

package text
import (
"bytes"
"github.com/yuin/goldmark/util"
)
var space = []byte(" ")
// A Segment struct holds information about source potisions.
type Segment struct {
// Start is a start position of the segment.
Start int
// Stop is a stop position of the segment.
// This value should be excluded.
Stop int
// Padding is a padding length of the segment.
Padding int
}
// NewSegment return a new Segment.
func NewSegment(start, stop int) Segment {
return Segment{
Start: start,
Stop: stop,
Padding: 0,
}
}
// NewSegmentPadding returns a new Segment with the given padding.
func NewSegmentPadding(start, stop, n int) Segment {
return Segment{
Start: start,
Stop: stop,
Padding: n,
}
}
// Value returns a value of the segment.
func (t *Segment) Value(buffer []byte) []byte {
if t.Padding == 0 {
return buffer[t.Start:t.Stop]
}
result := make([]byte, 0, t.Padding+t.Stop-t.Start+1)
result = append(result, bytes.Repeat(space, t.Padding)...)
return append(result, buffer[t.Start:t.Stop]...)
}
// Len returns a length of the segment.
func (t *Segment) Len() int {
return t.Stop - t.Start + t.Padding
}
// Between returns a segment between this segment and the given segment.
func (t *Segment) Between(other Segment) Segment {
if t.Stop != other.Stop {
panic("invalid state")
}
return NewSegmentPadding(
t.Start,
other.Start,
t.Padding-other.Padding,
)
}
// IsEmpty returns true if this segment is empty, otherwise false.
func (t *Segment) IsEmpty() bool {
return t.Start >= t.Stop && t.Padding == 0
}
// TrimRightSpace returns a new segment by slicing off all trailing
// space characters.
func (t *Segment) TrimRightSpace(buffer []byte) Segment {
v := buffer[t.Start:t.Stop]
l := util.TrimRightSpaceLength(v)
if l == len(v) {
return NewSegment(t.Start, t.Start)
}
return NewSegmentPadding(t.Start, t.Stop-l, t.Padding)
}
// TrimLeftSpace returns a new segment by slicing off all leading
// space characters including padding.
func (t *Segment) TrimLeftSpace(buffer []byte) Segment {
v := buffer[t.Start:t.Stop]
l := util.TrimLeftSpaceLength(v)
return NewSegment(t.Start+l, t.Stop)
}
// TrimLeftSpaceWidth returns a new segment by slicing off leading space
// characters until the given width.
func (t *Segment) TrimLeftSpaceWidth(width int, buffer []byte) Segment {
padding := t.Padding
for ; width > 0; width-- {
if padding == 0 {
break
}
padding--
}
if width == 0 {
return NewSegmentPadding(t.Start, t.Stop, padding)
}
text := buffer[t.Start:t.Stop]
start := t.Start
for _, c := range text {
if start >= t.Stop-1 || width <= 0 {
break
}
if c == ' ' {
width--
} else if c == '\t' {
width -= 4
} else {
break
}
start++
}
if width < 0 {
padding = width * -1
}
return NewSegmentPadding(start, t.Stop, padding)
}
// WithStart returns a new Segment with same value except Start.
func (t *Segment) WithStart(v int) Segment {
return NewSegmentPadding(v, t.Stop, t.Padding)
}
// WithStop returns a new Segment with same value except Stop.
func (t *Segment) WithStop(v int) Segment {
return NewSegmentPadding(t.Start, v, t.Padding)
}
// ConcatPadding concats the padding to the given slice.
func (t *Segment) ConcatPadding(v []byte) []byte {
if t.Padding > 0 {
return append(v, bytes.Repeat(space, t.Padding)...)
}
return v
}
// Segments is a collection of the Segment.
type Segments struct {
values []Segment
}
// NewSegments return a new Segments.
func NewSegments() *Segments {
return &Segments{
values: nil,
}
}
// Append appends the given segment after the tail of the collection.
func (s *Segments) Append(t Segment) {
if s.values == nil {
s.values = make([]Segment, 0, 20)
}
s.values = append(s.values, t)
}
// AppendAll appends all elements of given segments after the tail of the collection.
func (s *Segments) AppendAll(t []Segment) {
if s.values == nil {
s.values = make([]Segment, 0, 20)
}
s.values = append(s.values, t...)
}
// Len returns the length of the collection.
func (s *Segments) Len() int {
if s.values == nil {
return 0
}
return len(s.values)
}
// At returns a segment at the given index.
func (s *Segments) At(i int) Segment {
return s.values[i]
}
// Set sets the given Segment.
func (s *Segments) Set(i int, v Segment) {
s.values[i] = v
}
// SetSliced replace the collection with a subsliced value.
func (s *Segments) SetSliced(lo, hi int) {
s.values = s.values[lo:hi]
}
// Sliced returns a subslice of the collection.
func (s *Segments) Sliced(lo, hi int) []Segment {
return s.values[lo:hi]
}
// Clear delete all element of the collction.
func (s *Segments) Clear() {
s.values = nil
}
// Unshift insert the given Segment to head of the collection.
func (s *Segments) Unshift(v Segment) {
s.values = append(s.values[0:1], s.values[0:]...)
s.values[0] = v
}