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@ -25,6 +25,52 @@ type State struct {
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zeroMatchFound bool // Whether or not the state has been used for a zero-length match - only relevant for zero states
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}
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// Clones the NFA starting from the given state.
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func cloneState(start *State) *State {
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return cloneStateHelper(start, make(map[*State]*State))
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}
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// Helper function for clone. The map is used to keep track of which states have
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// already been copied, and which ones haven't.
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// This function was created using output from Llama3.1:405B.
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func cloneStateHelper(state *State, cloneMap map[*State]*State) *State {
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// Base case - if the clone exists in our map, return it.
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if clone, exists := cloneMap[state]; exists {
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return clone
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}
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// Recursive case - if the clone doesn't exist, create it, add it to the map,
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// and recursively call for each of the transition states.
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clone := &State{
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content: append([]int{}, state.content...),
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isEmpty: state.isEmpty,
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isLast: state.isLast,
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output: make([]*State, len(state.output)),
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transitions: make(map[int][]*State),
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isKleene: state.isKleene,
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assert: state.assert,
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zeroMatchFound: state.zeroMatchFound,
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}
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cloneMap[state] = clone
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for i, s := range state.output {
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if s == state {
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clone.output[i] = clone
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} else {
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clone.output[i] = cloneStateHelper(s, cloneMap)
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}
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}
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for k, v := range state.transitions {
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clone.transitions[k] = make([]*State, len(v))
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for i, s := range v {
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if s == state {
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clone.transitions[k][i] = clone
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} else {
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clone.transitions[k][i] = cloneStateHelper(s, cloneMap)
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}
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}
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}
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return clone
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}
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// Checks if the given state's assertion is true. Returns true if the given
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// state doesn't have an assertion.
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func (s State) checkAssertion(str string, idx int) bool {
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@ -123,9 +169,13 @@ func verifyLastStates(start []*State) {
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verifyLastStatesHelper(start[0], make(map[*State]bool))
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}
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// Concatenates s1 and s2, returns the start of the concatenation.
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func concatenate(s1 *State, s2 *State) *State {
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if s1 == nil {
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return s2
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}
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for i := range s1.output {
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for _, c := range s2.content { // Create transitions for every element in s2's content to s2'
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for _, c := range s2.content { // Create transitions for every element in s1's content to s2'
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s1.output[i].transitions[c], _ = unique_append(s1.output[i].transitions[c], s2)
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}
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}
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@ -172,3 +222,13 @@ func alternate(s1 *State, s2 *State) *State {
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return toReturn
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}
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func question(s1 *State) *State { // Use the fact that ab? == a(b|)
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s2 := &State{}
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s2.transitions = make(map[int][]*State)
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s2.content = newContents(EPSILON)
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s2.output = append(s2.output, s2)
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s2.isEmpty = true
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s3 := alternate(s1, s2)
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return s3
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}
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