GoToSocial/internal/text/goldmark_parsers.go

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// GoToSocial
// Copyright (C) GoToSocial Authors admin@gotosocial.org
// SPDX-License-Identifier: AGPL-3.0-or-later
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package text
import (
"fmt"
"strings"
"github.com/superseriousbusiness/gotosocial/internal/regexes"
"github.com/yuin/goldmark/ast"
"github.com/yuin/goldmark/parser"
"github.com/yuin/goldmark/text"
)
/*
MENTION PARSER STUFF
*/
// mention fulfils the goldmark
// ast.Node interface.
type mention struct {
ast.BaseInline
Segment text.Segment
}
var kindMention = ast.NewNodeKind("Mention")
func (n *mention) Kind() ast.NodeKind {
return kindMention
}
func (n *mention) Dump(source []byte, level int) {
fmt.Printf("%sMention: %s\n", strings.Repeat(" ", level), string(n.Segment.Value(source)))
}
// newMention creates a goldmark ast.Node
// from a text.Segment. The contained segment
// is used in rendering.
func newMention(s text.Segment) *mention {
return &mention{
BaseInline: ast.BaseInline{},
Segment: s,
}
}
// mentionParser fulfils the goldmark
// parser.InlineParser interface.
type mentionParser struct{}
// Mention parsing is triggered by the `@` symbol
// which appears at the beginning of a mention.
func (p *mentionParser) Trigger() []byte {
return []byte{'@'}
}
func (p *mentionParser) Parse(
_ ast.Node,
block text.Reader,
_ parser.Context,
) ast.Node {
// If preceding character is not a valid boundary
// character, then this cannot be a valid mention.
if !isMentionBoundary(block.PrecendingCharacter()) {
return nil
}
line, segment := block.PeekLine()
// Ascertain location of mention in the line
// that starts with the trigger character.
loc := regexes.MentionFinder.FindIndex(line)
if loc == nil || loc[0] != 0 {
// Noop if not found or
// not found at start.
return nil
}
// Advance the block to
// the end of the mention.
block.Advance(loc[1])
// mention ast.Node spans from the
// beginning of this segment up to
// the last character of the mention.
return newMention(
segment.WithStop(
segment.Start + loc[1],
),
)
}
/*
HASHTAG PARSER STUFF
*/
// hashtag fulfils the goldmark
// ast.Node interface.
type hashtag struct {
ast.BaseInline
Segment text.Segment
}
var kindHashtag = ast.NewNodeKind("Hashtag")
func (n *hashtag) Kind() ast.NodeKind {
return kindHashtag
}
func (n *hashtag) Dump(source []byte, level int) {
fmt.Printf("%sHashtag: %s\n", strings.Repeat(" ", level), string(n.Segment.Value(source)))
}
// newHashtag creates a goldmark ast.Node
// from a text.Segment. The contained segment
// is used in rendering.
func newHashtag(s text.Segment) *hashtag {
return &hashtag{
BaseInline: ast.BaseInline{},
Segment: s,
}
}
type hashtagParser struct{}
// Hashtag parsing is triggered by a '#' symbol
// which appears at the beginning of a hashtag.
func (p *hashtagParser) Trigger() []byte {
return []byte{'#'}
}
func (p *hashtagParser) Parse(
_ ast.Node,
block text.Reader,
_ parser.Context,
) ast.Node {
// If preceding character is not a valid boundary
// character, then this cannot be a valid hashtag.
if !isHashtagBoundary(block.PrecendingCharacter()) {
return nil
}
var (
line, segment = block.PeekLine()
lineStr = string(line)
lineStrLen = len(lineStr)
)
if lineStrLen <= 1 {
// This is probably just
// a lonely '#' char.
return nil
}
// Iterate through the runes in the detected
// hashtag string until we reach either:
// - A weird character (bad).
// - The end of the hashtag (ok).
// - The end of the string (also ok).
for i, r := range lineStr {
switch {
case r == '#' && i == 0:
// Ignore initial '#'.
continue
case !isPlausiblyInHashtag(r) &&
!isHashtagBoundary(r):
// Weird non-boundary character
// in the hashtag. Don't trust it.
return nil
case isHashtagBoundary(r):
// Reached closing hashtag
// boundary. Advance block
// to the end of the hashtag.
block.Advance(i)
// hashtag ast.Node spans from
// the beginning of this segment
// up to the boundary character.
return newHashtag(
segment.WithStop(
segment.Start + i,
),
)
}
}
// No invalid or boundary characters before the
// end of the line: it's all hashtag, baby 😎
//
// Advance block to the end of the segment.
block.Advance(segment.Len())
// hashtag ast.Node spans
// the entire segment.
return newHashtag(segment)
}
/*
EMOJI PARSER STUFF
*/
// emoji fulfils the goldmark
// ast.Node interface.
type emoji struct {
ast.BaseInline
Segment text.Segment
}
var kindEmoji = ast.NewNodeKind("Emoji")
func (n *emoji) Kind() ast.NodeKind {
return kindEmoji
}
func (n *emoji) Dump(source []byte, level int) {
fmt.Printf("%sEmoji: %s\n", strings.Repeat(" ", level), string(n.Segment.Value(source)))
}
// newEmoji creates a goldmark ast.Node
// from a text.Segment. The contained
// segment is used in rendering.
func newEmoji(s text.Segment) *emoji {
return &emoji{
BaseInline: ast.BaseInline{},
Segment: s,
}
}
type emojiParser struct{}
// Emoji parsing is triggered by a ':' char
// which appears at the start of the emoji.
func (p *emojiParser) Trigger() []byte {
return []byte{':'}
}
func (p *emojiParser) Parse(
_ ast.Node,
block text.Reader,
_ parser.Context,
) ast.Node {
line, segment := block.PeekLine()
// Ascertain location of emoji in the line
// that starts with the trigger character.
loc := regexes.EmojiFinder.FindIndex(line)
if loc == nil || loc[0] != 0 {
// Noop if not found or
// not found at start.
return nil
}
// Advance the block to
// the end of the emoji.
block.Advance(loc[1])
// emoji ast.Node spans from the
// beginning of this segment up to
// the last character of the emoji.
return newEmoji(
segment.WithStop(
segment.Start + loc[1],
),
)
}