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Added Match() and FindStringSubmatch(); removed old code; updated comments

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implementPCREMatchingRules
Aadhavan Srinivasan 4 weeks ago
parent f15a5cae34
commit d4e3942d27
1 changed files with 39 additions and 60 deletions
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99
regex/matching.go
Unescape Escape View File

@ -14,7 +14,7 @@ import (
// See [Reg.FindSubmatch] for an example. // See [Reg.FindSubmatch] for an example.
type Match []Group type Match []Group
// a Group represents a group. It contains the start index and end index of the match // a Group represents a capturing group. It contains the start and index of the group.
type Group struct { type Group struct {
StartIdx int StartIdx int
EndIdx int EndIdx int
@ -58,7 +58,7 @@ func (idx Group) String() string {
return fmt.Sprintf("%d\t%d", idx.StartIdx, idx.EndIdx) return fmt.Sprintf("%d\t%d", idx.StartIdx, idx.EndIdx)
} }
// Returns whether a group is valid (ie. whether it matched any text). It // IsValid returns whether a group is valid (ie. whether it matched any text). It
// simply ensures that both indices of the group are >= 0. // simply ensures that both indices of the group are >= 0.
func (g Group) IsValid() bool { func (g Group) IsValid() bool {
return g.StartIdx >= 0 && g.EndIdx >= 0 return g.StartIdx >= 0 && g.EndIdx >= 0
@ -69,63 +69,6 @@ func getZeroGroup(m Match) Group {
return m[0] return m[0]
} }
// takeZeroState takes the 0-state (if such a transition exists) for all states in the
// given slice. It returns the resulting states. If any of the resulting states is a 0-state,
// the second ret val is true.
// If a state begins or ends a capturing group, its 'thread' is updated to contain the correct index.
//func takeZeroState(states []*nfaState, numGroups int, idx int) (rtv []*nfaState, isZero bool) {
// for _, state := range states {
// if len(state.transitions[epsilon]) > 0 {
// for _, s := range state.transitions[epsilon] {
// if s.threadGroups == nil {
// s.threadGroups = newMatch(numGroups + 1)
// }
// copy(s.threadGroups, state.threadGroups)
// if s.groupBegin {
// s.threadGroups[s.groupNum].StartIdx = idx
// // openParenGroups = append(openParenGroups, s.groupNum)
// }
// if s.groupEnd {
// s.threadGroups[s.groupNum].EndIdx = idx
// // closeParenGroups = append(closeParenGroups, s.groupNum)
// }
// }
// rtv = append(rtv, state.transitions[epsilon]...)
// }
// }
// for _, state := range rtv {
// if len(state.transitions[epsilon]) > 0 {
// return rtv, true
// }
// }
// return rtv, false
//}
// zeroMatchPossible returns true if a zero-length match is possible
// from any of the given states, given the string and our position in it.
// It uses the same algorithm to find zero-states as the one inside the loop,
// so I should probably put it in a function.
//func zeroMatchPossible(str []rune, idx int, numGroups int, states ...*nfaState) bool {
// zeroStates, isZero := takeZeroState(states, numGroups, idx)
// tempstates := make([]*nfaState, 0, len(zeroStates)+len(states))
// tempstates = append(tempstates, states...)
// tempstates = append(tempstates, zeroStates...)
// num_appended := 0 // number of unique states addded to tempstates
// for isZero == true {
// zeroStates, isZero = takeZeroState(tempstates, numGroups, idx)
// tempstates, num_appended = uniqueAppend(tempstates, zeroStates...)
// if num_appended == 0 { // break if we haven't appended any more unique values
// break
// }
// }
// for _, state := range tempstates {
// if state.isEmpty && (state.assert == noneAssert || state.checkAssertion(str, idx)) && state.isLast {
// return true
// }
// }
// return false
//}
// Prunes the slice by removing overlapping indices. // Prunes the slice by removing overlapping indices.
func pruneIndices(indices []Match) []Match { func pruneIndices(indices []Match) []Match {
// First, sort the slice by the start indices // First, sort the slice by the start indices
@ -164,6 +107,12 @@ func (regex Reg) Find(str string) (Group, error) {
return getZeroGroup(match), nil return getZeroGroup(match), nil
} }
// Match returns a boolean value, indicating whether the regex found a match in the given string.
func (regex Reg) Match(str string) bool {
_, err := regex.Find(str)
return err == nil
}
// FindAll returns a slice containing all the 0-groups of the regex in the given string. // FindAll returns a slice containing all the 0-groups of the regex in the given string.
// A 0-group represents the match without any submatches. // A 0-group represents the match without any submatches.
func (regex Reg) FindAll(str string) []Group { func (regex Reg) FindAll(str string) []Group {
@ -199,7 +148,37 @@ func (regex Reg) FindSubmatch(str string) (Match, error) {
} }
} }
// FindAllString is the 'all' version of FindString. // FindStringSubmatch is the 'string' version of [FindSubmatch]. It returns a slice of strings,
// where the string at index i contains the text matched by the i-th capturing group.
// The 0-th index represents the entire match.
// An empty string at index n could mean:
// ,
// 1. Group n did not find a match
// 2. Group n found a zero-length match
//
// A return value of nil indicates no match.
func (regex Reg) FindStringSubmatch(str string) []string {
matchStr := make([]string, regex.numGroups+1)
match, err := regex.FindSubmatch(str)
if err != nil {
return nil
}
nonEmptyMatchFound := false
for i := range match {
if match[i].IsValid() {
matchStr[i] = str[match[i].StartIdx:match[i].EndIdx]
nonEmptyMatchFound = true
} else {
matchStr[i] = ""
}
}
if nonEmptyMatchFound == false {
return nil
}
return matchStr
}
// FindAllString is the 'all' version of [FindString].
// It returns a slice of strings containing the text of all matches of // It returns a slice of strings containing the text of all matches of
// the regex in the given string. // the regex in the given string.
func (regex Reg) FindAllString(str string) []string { func (regex Reg) FindAllString(str string) []string {

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