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package main
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import (
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"fmt"
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"os"
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"slices"
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"github.com/fatih/color"
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)
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const CONCAT rune = '~'
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func isOperator(c rune) bool {
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if c == '+' || c == '*' || c == '|' || c == CONCAT {
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return true
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}
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return false
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}
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/* priority returns the priority of the given operator */
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func priority(op rune) int {
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precedence := []rune{'|', CONCAT, '+', '*'}
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return slices.Index(precedence, op)
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}
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/*
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shuntingYard applies the Shunting-Yard algorithm
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to convert the given infix expression to postfix. This makes
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it easier to parse the algorithm when doing Thompson.
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See: https://blog.cernera.me/converting-regular-expressions-to-postfix-notation-with-the-shunting-yard-algorithm/
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*/
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func shuntingYard(re string) string {
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re_postfix := make([]rune, 0)
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re_runes := []rune(re)
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/* Add concatenation operators */
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for i := 0; i < len(re_runes); i++ {
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re_postfix = append(re_postfix, re_runes[i])
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if re_runes[i] != '(' && re_runes[i] != '|' {
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if i < len(re_runes)-1 {
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if re_runes[i+1] != '|' && re_runes[i+1] != '*' && re_runes[i+1] != '+' && re_runes[i+1] != ')' {
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re_postfix = append(re_postfix, CONCAT)
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}
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}
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}
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}
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// fmt.Println(string(re_postfix))
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opStack := make([]rune, 0) // Operator stack
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outQueue := make([]rune, 0) // Output queue
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// Actual algorithm
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for _, c := range re_postfix {
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/* Two cases:
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1. Current character is alphanumeric - send to output queue
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2. Current character is operator - do the following:
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a. If current character has greater priority than top of opStack, push to opStack.
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b. If not, keep popping from opStack (and appending to outQueue) until:
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i. opStack is empty, OR
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ii. current character has greater priority than top of opStack
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3. If current character is '(', push to opStack
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4. If current character is ')', pop from opStack (and append to outQueue) until '(' is found. Discard parantheses.
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*/
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if isAlphaNum(c) {
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outQueue = append(outQueue, c)
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}
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if isOperator(c) {
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if len(opStack) == 0 {
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opStack = append(opStack, c)
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} else {
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topStack, err := peek(opStack)
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if err != nil {
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panic("ERROR: Operator without operand.")
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}
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if priority(c) > priority(topStack) { // 2a
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opStack = append(opStack, c)
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} else {
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for priority(c) <= priority(topStack) { // 2b
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to_append := mustPop(&opStack)
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outQueue = append(outQueue, to_append)
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topStack, _ = peek(opStack)
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}
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opStack = append(opStack, c)
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}
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}
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}
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if c == '(' {
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opStack = append(opStack, c)
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}
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if c == ')' {
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// Keep popping from opStack until we encounter an opening parantheses. Panic if we reach the end of the stack.
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for val, err := peek(opStack); val != '('; val, err = peek(opStack) {
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if err != nil {
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panic("ERROR: Imbalanced parantheses.")
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}
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to_append := mustPop(&opStack)
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outQueue = append(outQueue, to_append)
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}
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_ = mustPop(&opStack) // Get rid of opening parantheses
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}
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}
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// Pop all remaining operators (and append to outQueue)
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for len(opStack) > 0 {
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to_append := mustPop(&opStack)
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outQueue = append(outQueue, to_append)
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}
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return string(outQueue)
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}
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// Thompson's algorithm. Constructs Finite-State Automaton from given string.
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// Returns start state.
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func thompson(re string) *State {
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nfa := make([]*State, 0) // Stack of states
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for _, c := range re {
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if isAlphaNum(c) {
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state := State{}
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state.transitions = make(map[int][]*State)
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state.content = int(c)
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state.output = make([]*State, 0)
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state.output = append(state.output, &state)
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state.isEmpty = false
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nfa = append(nfa, &state)
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}
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// Must be an operator if it isn't alphanumeric
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switch c {
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case CONCAT:
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s2 := mustPop(&nfa)
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s1 := mustPop(&nfa)
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s1 = concatenate(s1, s2)
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nfa = append(nfa, s1)
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case '*': // Create a 0-state, concat the popped state after it, concat the 0-state after the popped state
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s1 := mustPop(&nfa)
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stateToAdd := kleene(*s1)
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nfa = append(nfa, stateToAdd)
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case '+': // a+ is equivalent to aa*
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s1 := mustPop(&nfa)
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s2 := kleene(*s1)
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s1 = concatenate(s1, s2)
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nfa = append(nfa, s1)
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case '|':
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s1 := mustPop(&nfa)
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s2 := mustPop(&nfa)
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s3 := State{}
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s3.transitions = make(map[int][]*State)
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s3.output = append(s3.output, s1.output...)
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s3.output = append(s3.output, s2.output...)
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s3.transitions[s1.content] = append(s3.transitions[s1.content], s1)
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s3.transitions[s2.content] = append(s3.transitions[s2.content], s2)
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s3.content = EPSILON
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s3.isEmpty = true
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nfa = append(nfa, &s3)
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}
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}
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if len(nfa) != 1 {
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panic("ERROR: Invalid Regex.")
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}
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verifyLastStates(nfa)
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return nfa[0]
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}
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func main() {
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// Process:
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// 1. Convert regex into postfix notation (Shunting-Yard algorithm)
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// a. Add explicit concatenation operators to facilitate this
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// 2. Build NFA from postfix representation (Thompson's algorithm)
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// 3. Run the string against the NFA
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if len(os.Args) < 3 {
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fmt.Println("ERROR: Missing cmdline args")
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os.Exit(22)
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}
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var re string
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re = os.Args[1]
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re_postfix := shuntingYard(re)
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// fmt.Println(re_postfix)
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startState := thompson(re_postfix)
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matchIndices := findAllMatches(startState, os.Args[2])
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inColor := false
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if len(matchIndices) > 0 {
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for i, c := range os.Args[2] {
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for _, indices := range matchIndices {
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if i >= indices.startIdx && i < indices.endIdx {
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color.New(color.FgRed).Printf("%c", c)
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inColor = true
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break
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}
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}
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if inColor == false {
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fmt.Printf("%c", c)
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}
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inColor = false
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}
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fmt.Printf("\n")
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} else {
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fmt.Println(os.Args[2])
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}
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}
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