package html // import "github.com/tdewolff/minify/html" import ( "github.com/tdewolff/parse/v2" "github.com/tdewolff/parse/v2/html" ) // Token is a single token unit with an attribute value (if given) and hash of the data. type Token struct { html.TokenType Hash html.Hash Data []byte Text []byte AttrVal []byte Traits traits } // TokenBuffer is a buffer that allows for token look-ahead. type TokenBuffer struct { l *html.Lexer buf []Token pos int attrBuffer []*Token } // NewTokenBuffer returns a new TokenBuffer. func NewTokenBuffer(l *html.Lexer) *TokenBuffer { return &TokenBuffer{ l: l, buf: make([]Token, 0, 8), } } func (z *TokenBuffer) read(t *Token) { t.TokenType, t.Data = z.l.Next() t.Text = z.l.Text() if t.TokenType == html.AttributeToken { t.AttrVal = z.l.AttrVal() if len(t.AttrVal) > 1 && (t.AttrVal[0] == '"' || t.AttrVal[0] == '\'') { t.AttrVal = parse.TrimWhitespace(t.AttrVal[1 : len(t.AttrVal)-1]) // quotes will be readded in attribute loop if necessary } t.Hash = html.ToHash(t.Text) t.Traits = attrMap[t.Hash] } else if t.TokenType == html.StartTagToken || t.TokenType == html.EndTagToken { t.AttrVal = nil t.Hash = html.ToHash(t.Text) t.Traits = tagMap[t.Hash] } else { t.AttrVal = nil t.Hash = 0 t.Traits = 0 } } // Peek returns the ith element and possibly does an allocation. // Peeking past an error will panic. func (z *TokenBuffer) Peek(pos int) *Token { pos += z.pos if pos >= len(z.buf) { if len(z.buf) > 0 && z.buf[len(z.buf)-1].TokenType == html.ErrorToken { return &z.buf[len(z.buf)-1] } c := cap(z.buf) d := len(z.buf) - z.pos p := pos - z.pos + 1 // required peek length var buf []Token if 2*p > c { buf = make([]Token, 0, 2*c+p) } else { buf = z.buf } copy(buf[:d], z.buf[z.pos:]) buf = buf[:p] pos -= z.pos for i := d; i < p; i++ { z.read(&buf[i]) if buf[i].TokenType == html.ErrorToken { buf = buf[:i+1] pos = i break } } z.pos, z.buf = 0, buf } return &z.buf[pos] } // Shift returns the first element and advances position. func (z *TokenBuffer) Shift() *Token { if z.pos >= len(z.buf) { t := &z.buf[:1][0] z.read(t) return t } t := &z.buf[z.pos] z.pos++ return t } // Attributes extracts the gives attribute hashes from a tag. // It returns in the same order pointers to the requested token data or nil. func (z *TokenBuffer) Attributes(hashes ...html.Hash) []*Token { n := 0 for { if t := z.Peek(n); t.TokenType != html.AttributeToken { break } n++ } if len(hashes) > cap(z.attrBuffer) { z.attrBuffer = make([]*Token, len(hashes)) } else { z.attrBuffer = z.attrBuffer[:len(hashes)] for i := range z.attrBuffer { z.attrBuffer[i] = nil } } for i := z.pos; i < z.pos+n; i++ { attr := &z.buf[i] for j, hash := range hashes { if hash == attr.Hash { z.attrBuffer[j] = attr } } } return z.attrBuffer }