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245 lines
7.5 KiB
C++
245 lines
7.5 KiB
C++
// Copyright 2006 The RE2 Authors. All Rights Reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Helper class for traversing Regexps without recursion.
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// Clients should declare their own subclasses that override
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// the PreVisit and PostVisit methods, which are called before
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// and after visiting the subexpressions.
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// Not quite the Visitor pattern, because (among other things)
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// the Visitor pattern is recursive.
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#ifndef RE2_WALKER_INL_H__
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#define RE2_WALKER_INL_H__
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#include "re2/regexp.h"
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namespace re2 {
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template<typename T> struct WalkState;
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template<typename T> class Regexp::Walker {
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public:
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Walker();
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virtual ~Walker();
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// Virtual method called before visiting re's children.
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// PreVisit passes ownership of its return value to its caller.
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// The Arg* that PreVisit returns will be passed to PostVisit as pre_arg
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// and passed to the child PreVisits and PostVisits as parent_arg.
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// At the top-most Regexp, parent_arg is arg passed to walk.
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// If PreVisit sets *stop to true, the walk does not recurse
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// into the children. Instead it behaves as though the return
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// value from PreVisit is the return value from PostVisit.
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// The default PreVisit returns parent_arg.
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virtual T PreVisit(Regexp* re, T parent_arg, bool* stop);
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// Virtual method called after visiting re's children.
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// The pre_arg is the T that PreVisit returned.
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// The child_args is a vector of the T that the child PostVisits returned.
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// PostVisit takes ownership of pre_arg.
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// PostVisit takes ownership of the Ts
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// in *child_args, but not the vector itself.
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// PostVisit passes ownership of its return value
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// to its caller.
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// The default PostVisit simply returns pre_arg.
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virtual T PostVisit(Regexp* re, T parent_arg, T pre_arg,
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T* child_args, int nchild_args);
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// Virtual method called to copy a T,
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// when Walk notices that more than one child is the same re.
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virtual T Copy(T arg);
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// Virtual method called to do a "quick visit" of the re,
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// but not its children. Only called once the visit budget
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// has been used up and we're trying to abort the walk
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// as quickly as possible. Should return a value that
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// makes sense for the parent PostVisits still to be run.
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// This function is (hopefully) only called by
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// WalkExponential, but must be implemented by all clients,
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// just in case.
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virtual T ShortVisit(Regexp* re, T parent_arg) = 0;
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// Walks over a regular expression.
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// Top_arg is passed as parent_arg to PreVisit and PostVisit of re.
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// Returns the T returned by PostVisit on re.
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T Walk(Regexp* re, T top_arg);
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// Like Walk, but doesn't use Copy. This can lead to
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// exponential runtimes on cross-linked Regexps like the
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// ones generated by Simplify. To help limit this,
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// at most max_visits nodes will be visited and then
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// the walk will be cut off early.
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// If the walk *is* cut off early, ShortVisit(re)
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// will be called on regexps that cannot be fully
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// visited rather than calling PreVisit/PostVisit.
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T WalkExponential(Regexp* re, T top_arg, int max_visits);
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// Clears the stack. Should never be necessary, since
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// Walk always enters and exits with an empty stack.
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// Logs DFATAL if stack is not already clear.
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void Reset();
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// Returns whether walk was cut off.
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bool stopped_early() { return stopped_early_; }
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private:
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// Walk state for the entire traversal.
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stack<WalkState<T> >* stack_;
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bool stopped_early_;
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int max_visits_;
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T WalkInternal(Regexp* re, T top_arg, bool use_copy);
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DISALLOW_EVIL_CONSTRUCTORS(Walker);
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};
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template<typename T> T Regexp::Walker<T>::PreVisit(Regexp* re,
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T parent_arg,
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bool* stop) {
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return parent_arg;
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}
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template<typename T> T Regexp::Walker<T>::PostVisit(Regexp* re,
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T parent_arg,
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T pre_arg,
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T* child_args,
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int nchild_args) {
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return pre_arg;
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}
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template<typename T> T Regexp::Walker<T>::Copy(T arg) {
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return arg;
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}
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// State about a single level in the traversal.
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template<typename T> struct WalkState {
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WalkState<T>(Regexp* re, T parent)
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: re(re),
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n(-1),
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parent_arg(parent),
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child_args(NULL) { }
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Regexp* re; // The regexp
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int n; // The index of the next child to process; -1 means need to PreVisit
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T parent_arg; // Accumulated arguments.
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T pre_arg;
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T child_arg; // One-element buffer for child_args.
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T* child_args;
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};
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template<typename T> Regexp::Walker<T>::Walker() {
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stack_ = new stack<WalkState<T> >;
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stopped_early_ = false;
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}
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template<typename T> Regexp::Walker<T>::~Walker() {
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Reset();
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delete stack_;
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}
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// Clears the stack. Should never be necessary, since
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// Walk always enters and exits with an empty stack.
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// Logs DFATAL if stack is not already clear.
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template<typename T> void Regexp::Walker<T>::Reset() {
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if (stack_ && stack_->size() > 0) {
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LOG(DFATAL) << "Stack not empty.";
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while (stack_->size() > 0) {
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delete stack_->top().child_args;
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stack_->pop();
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}
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}
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}
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template<typename T> T Regexp::Walker<T>::WalkInternal(Regexp* re, T top_arg,
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bool use_copy) {
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Reset();
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if (re == NULL) {
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LOG(DFATAL) << "Walk NULL";
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return top_arg;
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}
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stack_->push(WalkState<T>(re, top_arg));
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WalkState<T>* s;
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for (;;) {
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T t;
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s = &stack_->top();
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Regexp* re = s->re;
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switch (s->n) {
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case -1: {
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if (--max_visits_ < 0) {
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stopped_early_ = true;
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t = ShortVisit(re, s->parent_arg);
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break;
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}
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bool stop = false;
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s->pre_arg = PreVisit(re, s->parent_arg, &stop);
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if (stop) {
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t = s->pre_arg;
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break;
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}
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s->n = 0;
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s->child_args = NULL;
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if (re->nsub_ == 1)
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s->child_args = &s->child_arg;
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else if (re->nsub_ > 1)
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s->child_args = new T[re->nsub_];
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// Fall through.
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}
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default: {
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if (re->nsub_ > 0) {
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Regexp** sub = re->sub();
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if (s->n < re->nsub_) {
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if (use_copy && s->n > 0 && sub[s->n - 1] == sub[s->n]) {
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s->child_args[s->n] = Copy(s->child_args[s->n - 1]);
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s->n++;
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} else {
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stack_->push(WalkState<T>(sub[s->n], s->pre_arg));
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}
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continue;
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}
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}
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t = PostVisit(re, s->parent_arg, s->pre_arg, s->child_args, s->n);
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if (re->nsub_ > 1)
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delete[] s->child_args;
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break;
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}
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}
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// We've finished stack_->top().
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// Update next guy down.
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stack_->pop();
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if (stack_->size() == 0)
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return t;
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s = &stack_->top();
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if (s->child_args != NULL)
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s->child_args[s->n] = t;
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else
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s->child_arg = t;
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s->n++;
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}
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}
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template<typename T> T Regexp::Walker<T>::Walk(Regexp* re, T top_arg) {
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// Without the exponential walking behavior,
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// this budget should be more than enough for any
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// regexp, and yet not enough to get us in trouble
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// as far as CPU time.
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max_visits_ = 1000000;
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return WalkInternal(re, top_arg, true);
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}
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template<typename T> T Regexp::Walker<T>::WalkExponential(Regexp* re, T top_arg,
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int max_visits) {
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max_visits_ = max_visits;
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return WalkInternal(re, top_arg, false);
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}
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} // namespace re2
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#endif // RE2_WALKER_INL_H__
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