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210 lines
4.8 KiB
Go
210 lines
4.8 KiB
Go
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package regexutil
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import (
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"regexp"
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"regexp/syntax"
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"strings"
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)
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// Regex implements an optimized string matching for Go regex.
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//
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// The following regexs are optimized:
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//
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// - plain string such as "foobar"
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// - alternate strings such as "foo|bar|baz"
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// - prefix match such as "foo.*" or "foo.+"
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// - substring match such as ".*foo.*" or ".+bar.+"
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type Regex struct {
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// exprStr is the original expression.
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exprStr string
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// prefix contains literal prefix for regex.
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// For example, prefix="foo" for regex="foo(a|b)"
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prefix string
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// isOnlyPrefix is set to true if the regex contains only the prefix.
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isOnlyPrefix bool
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// isSuffixDotStar is set to true if suffix is ".*"
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isSuffixDotStar bool
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// isSuffixDotPlus is set to true if suffix is ".+"
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isSuffixDotPlus bool
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// substrDotStar contains literal string for regex suffix=".*string.*"
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substrDotStar string
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// substrDotPlus contains literal string for regex suffix=".+string.+"
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substrDotPlus string
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// orValues contains or values for the suffix regex.
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// For example, orValues contain ["foo","bar","baz"] for regex suffix="foo|bar|baz"
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orValues []string
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// suffixRe is the regexp for suffix
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suffixRe *regexp.Regexp
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}
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// NewRegex returns Regex for the given expr.
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func NewRegex(expr string) (*Regex, error) {
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if _, err := regexp.Compile(expr); err != nil {
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return nil, err
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}
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prefix, suffix := SimplifyRegex(expr)
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sre := mustParseRegexp(suffix)
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orValues := getOrValues(sre)
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isOnlyPrefix := len(orValues) == 1 && orValues[0] == ""
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isSuffixDotStar := isDotOp(sre, syntax.OpStar)
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isSuffixDotPlus := isDotOp(sre, syntax.OpPlus)
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substrDotStar := getSubstringLiteral(sre, syntax.OpStar)
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substrDotPlus := getSubstringLiteral(sre, syntax.OpPlus)
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suffixAnchored := suffix
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if len(prefix) > 0 {
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suffixAnchored = "^(?:" + suffix + ")"
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}
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// The suffixAnchored must be properly compiled, since it has been already checked above.
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// Otherwise it is a bug, which must be fixed.
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suffixRe := regexp.MustCompile(suffixAnchored)
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r := &Regex{
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exprStr: expr,
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prefix: prefix,
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isOnlyPrefix: isOnlyPrefix,
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isSuffixDotStar: isSuffixDotStar,
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isSuffixDotPlus: isSuffixDotPlus,
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substrDotStar: substrDotStar,
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substrDotPlus: substrDotPlus,
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orValues: orValues,
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suffixRe: suffixRe,
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}
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return r, nil
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}
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// MatchString returns true if s matches r.
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func (r *Regex) MatchString(s string) bool {
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if r.isOnlyPrefix {
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return strings.Contains(s, r.prefix)
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}
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if len(r.prefix) == 0 {
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return r.matchStringNoPrefix(s)
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}
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return r.matchStringWithPrefix(s)
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}
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// GetLiterals returns literals for r.
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func (r *Regex) GetLiterals() []string {
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sre := mustParseRegexp(r.exprStr)
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for sre.Op == syntax.OpCapture {
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sre = sre.Sub[0]
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}
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v, ok := getLiteral(sre)
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if ok {
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return []string{v}
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}
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if sre.Op != syntax.OpConcat {
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return nil
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}
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var a []string
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for _, sub := range sre.Sub {
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v, ok := getLiteral(sub)
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if ok {
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a = append(a, v)
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}
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}
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return a
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}
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// String returns string represetnation for r
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func (r *Regex) String() string {
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return r.exprStr
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}
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func (r *Regex) matchStringNoPrefix(s string) bool {
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if r.isSuffixDotStar {
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return true
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}
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if r.isSuffixDotPlus {
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return len(s) > 0
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}
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if r.substrDotStar != "" {
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// Fast path - r contains ".*someText.*"
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return strings.Contains(s, r.substrDotStar)
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}
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if r.substrDotPlus != "" {
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// Fast path - r contains ".+someText.+"
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n := strings.Index(s, r.substrDotPlus)
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return n > 0 && n+len(r.substrDotPlus) < len(s)
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}
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if len(r.orValues) == 0 {
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// Fall back to slow path by matching the suffix regexp.
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return r.suffixRe.MatchString(s)
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}
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// Fast path - compare s to r.orValues
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for _, v := range r.orValues {
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if strings.Contains(s, v) {
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return true
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}
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}
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return false
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}
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func (r *Regex) matchStringWithPrefix(s string) bool {
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n := strings.Index(s, r.prefix)
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if n < 0 {
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// Fast path - s doesn't contain the needed prefix
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return false
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}
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sNext := s[n+1:]
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s = s[n+len(r.prefix):]
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if r.isSuffixDotStar {
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return true
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}
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if r.isSuffixDotPlus {
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return len(s) > 0
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}
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if r.substrDotStar != "" {
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// Fast path - r contains ".*someText.*"
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return strings.Contains(s, r.substrDotStar)
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}
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if r.substrDotPlus != "" {
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// Fast path - r contains ".+someText.+"
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n := strings.Index(s, r.substrDotPlus)
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return n > 0 && n+len(r.substrDotPlus) < len(s)
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}
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for {
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if len(r.orValues) == 0 {
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// Fall back to slow path by matching the suffix regexp.
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if r.suffixRe.MatchString(s) {
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return true
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}
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} else {
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// Fast path - compare s to r.orValues
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for _, v := range r.orValues {
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if strings.HasPrefix(s, v) {
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return true
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}
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}
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}
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// Mismatch. Try again starting from the next char.
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s = sNext
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n := strings.Index(s, r.prefix)
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if n < 0 {
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// Fast path - s doesn't contain the needed prefix
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return false
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}
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sNext = s[n+1:]
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s = s[n+len(r.prefix):]
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}
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}
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