package cascadia import ( "fmt" "strings" ) // implements the reverse operation Sel -> string func (c tagSelector) String() string { return c.tag } func (c idSelector) String() string { return "#" + c.id } func (c classSelector) String() string { return "." + c.class } func (c attrSelector) String() string { val := c.val if c.operation == "#=" { val = c.regexp.String() } else if c.operation != "" { val = fmt.Sprintf(`"%s"`, val) } return fmt.Sprintf(`[%s%s%s]`, c.key, c.operation, val) } func (c relativePseudoClassSelector) String() string { return fmt.Sprintf(":%s(%s)", c.name, c.match.String()) } func (c containsPseudoClassSelector) String() string { s := "contains" if c.own { s += "Own" } return fmt.Sprintf(`:%s("%s")`, s, c.value) } func (c regexpPseudoClassSelector) String() string { s := "matches" if c.own { s += "Own" } return fmt.Sprintf(":%s(%s)", s, c.regexp.String()) } func (c nthPseudoClassSelector) String() string { if c.a == 0 && c.b == 1 { // special cases s := ":first-" if c.last { s = ":last-" } if c.ofType { s += "of-type" } else { s += "child" } return s } var name string switch [2]bool{c.last, c.ofType} { case [2]bool{true, true}: name = "nth-last-of-type" case [2]bool{true, false}: name = "nth-last-child" case [2]bool{false, true}: name = "nth-of-type" case [2]bool{false, false}: name = "nth-child" } return fmt.Sprintf(":%s(%dn+%d)", name, c.a, c.b) } func (c onlyChildPseudoClassSelector) String() string { if c.ofType { return ":only-of-type" } return ":only-child" } func (c inputPseudoClassSelector) String() string { return ":input" } func (c emptyElementPseudoClassSelector) String() string { return ":empty" } func (c rootPseudoClassSelector) String() string { return ":root" } func (c compoundSelector) String() string { if len(c.selectors) == 0 && c.pseudoElement == "" { return "*" } chunks := make([]string, len(c.selectors)) for i, sel := range c.selectors { chunks[i] = sel.String() } s := strings.Join(chunks, "") if c.pseudoElement != "" { s += "::" + c.pseudoElement } return s } func (c combinedSelector) String() string { start := c.first.String() if c.second != nil { start += fmt.Sprintf(" %s %s", string(c.combinator), c.second.String()) } return start } func (c SelectorGroup) String() string { ck := make([]string, len(c)) for i, s := range c { ck[i] = s.String() } return strings.Join(ck, ", ") }