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badge-gen/vendor/github.com/tdewolff/parse/css/parse.go

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2016-06-28 17:38:58 +00:00
package css
import (
"bytes"
"errors"
"io"
"strconv"
"github.com/tdewolff/parse"
)
var wsBytes = []byte(" ")
var endBytes = []byte("}")
var emptyBytes = []byte("")
// ErrBadQualifiedRule is returned when a qualitied rule is expected, but an error or EOF happened earlier.
var ErrBadQualifiedRule = errors.New("unexpected ending in qualified rule, expected left brace token")
// ErrBadDeclaration is returned when a declaration is expected but the colon token is lacking.
var ErrBadDeclaration = errors.New("unexpected token in declaration, expected colon token")
////////////////////////////////////////////////////////////////
// GrammarType determines the type of grammar.
type GrammarType uint32
// GrammarType values.
const (
ErrorGrammar GrammarType = iota // extra token when errors occur
CommentGrammar
AtRuleGrammar
BeginAtRuleGrammar
EndAtRuleGrammar
BeginRulesetGrammar
EndRulesetGrammar
DeclarationGrammar
TokenGrammar
)
// String returns the string representation of a GrammarType.
func (tt GrammarType) String() string {
switch tt {
case ErrorGrammar:
return "Error"
case CommentGrammar:
return "Comment"
case AtRuleGrammar:
return "AtRule"
case BeginAtRuleGrammar:
return "BeginAtRule"
case EndAtRuleGrammar:
return "EndAtRule"
case BeginRulesetGrammar:
return "BeginRuleset"
case EndRulesetGrammar:
return "EndRuleset"
case DeclarationGrammar:
return "Declaration"
case TokenGrammar:
return "Token"
}
return "Invalid(" + strconv.Itoa(int(tt)) + ")"
}
////////////////////////////////////////////////////////////////
// State is the state function the parser currently is in.
type State func() GrammarType
// Token is a single TokenType and its associated data.
type Token struct {
TokenType
Data []byte
}
// Parser is the state for the parser.
type Parser struct {
l *Lexer
state []State
err error
buf []Token
level int
tt TokenType
data []byte
prevWS bool
prevEnd bool
n int
}
// NewParser returns a new CSS parser from an io.Reader. isInline specifies whether this is an inline style attribute.
func NewParser(r io.Reader, isInline bool) *Parser {
l := NewLexer(r)
p := &Parser{
l: l,
}
if isInline {
p.state = []State{p.parseDeclarationList}
} else {
p.state = []State{p.parseStylesheet}
}
return p
}
// Err returns the error encountered during parsing, this is often io.EOF but also other errors can be returned.
func (p *Parser) Err() error {
if p.err != nil {
return p.err
}
return p.l.Err()
}
// Next returns the next Grammar. It returns ErrorGrammar when an error was encountered. Using Err() one can retrieve the error message.
func (p *Parser) Next() (GrammarType, TokenType, []byte) {
p.l.Free(p.n)
p.n = 0
if p.prevEnd {
p.tt, p.data = RightBraceToken, endBytes
p.prevEnd = false
} else {
p.tt, p.data = p.popToken(true)
}
gt := p.state[len(p.state)-1]()
return gt, p.tt, p.data
}
// Values returns a slice of Tokens for the last Grammar. Only AtRuleGrammar, BeginAtRuleGrammar, BeginRulesetGrammar and Declaration will return the at-rule components, ruleset selector and declaration values respectively.
func (p *Parser) Values() []Token {
return p.buf
}
func (p *Parser) popToken(allowComment bool) (TokenType, []byte) {
p.prevWS = false
tt, data := p.l.Next()
p.n += len(data)
for tt == WhitespaceToken || tt == CommentToken {
if tt == WhitespaceToken {
p.prevWS = true
} else if allowComment && len(p.state) == 1 {
break
}
tt, data = p.l.Next()
p.n += len(data)
}
return tt, data
}
func (p *Parser) initBuf() {
p.buf = p.buf[:0]
}
func (p *Parser) pushBuf(tt TokenType, data []byte) {
p.buf = append(p.buf, Token{tt, data})
}
////////////////////////////////////////////////////////////////
func (p *Parser) parseStylesheet() GrammarType {
if p.tt == CDOToken || p.tt == CDCToken {
return TokenGrammar
} else if p.tt == AtKeywordToken {
return p.parseAtRule()
} else if p.tt == CommentToken {
return CommentGrammar
} else if p.tt == ErrorToken {
return ErrorGrammar
}
return p.parseQualifiedRule()
}
func (p *Parser) parseDeclarationList() GrammarType {
if p.tt == CommentToken {
p.tt, p.data = p.popToken(false)
}
for p.tt == SemicolonToken {
p.tt, p.data = p.popToken(false)
}
if p.tt == ErrorToken {
return ErrorGrammar
} else if p.tt == AtKeywordToken {
return p.parseAtRule()
} else if p.tt == IdentToken {
return p.parseDeclaration()
} else if p.tt == DelimToken && p.data[0] == '*' { // CSS hack
p.tt, p.data = p.popToken(false)
if p.tt == IdentToken {
p.data = append([]byte("*"), p.data...)
return p.parseDeclaration()
}
}
// parse error
for p.tt != SemicolonToken && p.tt != ErrorToken {
p.tt, p.data = p.popToken(false)
}
return p.state[len(p.state)-1]()
}
////////////////////////////////////////////////////////////////
func (p *Parser) parseAtRule() GrammarType {
p.initBuf()
parse.ToLower(p.data)
atRuleName := p.data
if len(atRuleName) > 0 && atRuleName[1] == '-' {
if i := bytes.IndexByte(atRuleName[2:], '-'); i != -1 {
atRuleName = atRuleName[i+2:] // skip vendor specific prefix
}
}
atRule := ToHash(atRuleName[1:])
first := true
skipWS := false
for {
tt, data := p.popToken(false)
if tt == LeftBraceToken && p.level == 0 {
if atRule == Font_Face || atRule == Page {
p.state = append(p.state, p.parseAtRuleDeclarationList)
} else if atRule == Document || atRule == Keyframes || atRule == Media || atRule == Supports {
p.state = append(p.state, p.parseAtRuleRuleList)
} else {
p.state = append(p.state, p.parseAtRuleUnknown)
}
return BeginAtRuleGrammar
} else if (tt == SemicolonToken || tt == RightBraceToken) && p.level == 0 || tt == ErrorToken {
p.prevEnd = (tt == RightBraceToken)
return AtRuleGrammar
} else if tt == LeftParenthesisToken || tt == LeftBraceToken || tt == LeftBracketToken || tt == FunctionToken {
p.level++
} else if tt == RightParenthesisToken || tt == RightBraceToken || tt == RightBracketToken {
p.level--
}
if first {
if tt == LeftParenthesisToken || tt == LeftBracketToken {
p.prevWS = false
}
first = false
}
if len(data) == 1 && (data[0] == ',' || data[0] == ':') {
skipWS = true
} else if p.prevWS && !skipWS && tt != RightParenthesisToken {
p.pushBuf(WhitespaceToken, wsBytes)
} else {
skipWS = false
}
if tt == LeftParenthesisToken {
skipWS = true
}
p.pushBuf(tt, data)
}
}
func (p *Parser) parseAtRuleRuleList() GrammarType {
if p.tt == RightBraceToken || p.tt == ErrorToken {
p.state = p.state[:len(p.state)-1]
return EndAtRuleGrammar
} else if p.tt == AtKeywordToken {
return p.parseAtRule()
} else {
return p.parseQualifiedRule()
}
}
func (p *Parser) parseAtRuleDeclarationList() GrammarType {
for p.tt == SemicolonToken {
p.tt, p.data = p.popToken(false)
}
if p.tt == RightBraceToken || p.tt == ErrorToken {
p.state = p.state[:len(p.state)-1]
return EndAtRuleGrammar
}
return p.parseDeclarationList()
}
func (p *Parser) parseAtRuleUnknown() GrammarType {
if p.tt == RightBraceToken && p.level == 0 || p.tt == ErrorToken {
p.state = p.state[:len(p.state)-1]
return EndAtRuleGrammar
}
if p.tt == LeftParenthesisToken || p.tt == LeftBraceToken || p.tt == LeftBracketToken || p.tt == FunctionToken {
p.level++
} else if p.tt == RightParenthesisToken || p.tt == RightBraceToken || p.tt == RightBracketToken {
p.level--
}
return TokenGrammar
}
func (p *Parser) parseQualifiedRule() GrammarType {
p.initBuf()
first := true
inAttrSel := false
skipWS := true
var tt TokenType
var data []byte
for {
if first {
tt, data = p.tt, p.data
p.tt = WhitespaceToken
p.data = emptyBytes
first = false
} else {
tt, data = p.popToken(false)
}
if tt == LeftBraceToken && p.level == 0 {
p.state = append(p.state, p.parseQualifiedRuleDeclarationList)
return BeginRulesetGrammar
} else if tt == ErrorToken {
p.err = ErrBadQualifiedRule
return ErrorGrammar
} else if tt == LeftParenthesisToken || tt == LeftBraceToken || tt == LeftBracketToken || tt == FunctionToken {
p.level++
} else if tt == RightParenthesisToken || tt == RightBraceToken || tt == RightBracketToken {
p.level--
}
if len(data) == 1 && (data[0] == ',' || data[0] == '>' || data[0] == '+' || data[0] == '~') {
skipWS = true
} else if p.prevWS && !skipWS && !inAttrSel {
p.pushBuf(WhitespaceToken, wsBytes)
} else {
skipWS = false
}
if tt == LeftBracketToken {
inAttrSel = true
} else if tt == RightBracketToken {
inAttrSel = false
}
p.pushBuf(tt, data)
}
}
func (p *Parser) parseQualifiedRuleDeclarationList() GrammarType {
for p.tt == SemicolonToken {
p.tt, p.data = p.popToken(false)
}
if p.tt == RightBraceToken || p.tt == ErrorToken {
p.state = p.state[:len(p.state)-1]
return EndRulesetGrammar
}
return p.parseDeclarationList()
}
func (p *Parser) parseDeclaration() GrammarType {
p.initBuf()
parse.ToLower(p.data)
if tt, _ := p.popToken(false); tt != ColonToken {
p.err = ErrBadDeclaration
return ErrorGrammar
}
skipWS := true
for {
tt, data := p.popToken(false)
if (tt == SemicolonToken || tt == RightBraceToken) && p.level == 0 || tt == ErrorToken {
p.prevEnd = (tt == RightBraceToken)
return DeclarationGrammar
} else if tt == LeftParenthesisToken || tt == LeftBraceToken || tt == LeftBracketToken || tt == FunctionToken {
p.level++
} else if tt == RightParenthesisToken || tt == RightBraceToken || tt == RightBracketToken {
p.level--
}
if len(data) == 1 && (data[0] == ',' || data[0] == '/' || data[0] == ':' || data[0] == '!' || data[0] == '=') {
skipWS = true
} else if p.prevWS && !skipWS {
p.pushBuf(WhitespaceToken, wsBytes)
} else {
skipWS = false
}
p.pushBuf(tt, data)
}
}