third_party/skia/src/sksl/lex/NFAState.h - cobalt - Git at Google

 /*
  * Copyright 2017 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SKSL_NFASTATE
 #define SKSL_NFASTATE

 #include <string>
 #include <vector>

 #include "src/sksl/lex/LexUtil.h"

 struct NFAState {
     enum Kind {
         // represents an accept state - if the NFA ends up in this state, we have successfully
         // matched the token indicated by fData[0]
         kAccept_Kind,
         // matches the single character fChar
         kChar_Kind,
         // the regex '.'; matches any char but '\n'
         kDot_Kind,
         // a state which serves as a placeholder for the states indicated in fData. When we
         // transition to this state, we instead transition to all of the fData states.
         kRemapped_Kind,
         // contains a list of true/false values in fData. fData[c] tells us whether we accept the
         // character c.
         kTable_Kind
     };

     NFAState(Kind kind, std::vector<int> next)
     : fKind(kind)
     , fNext(std::move(next)) {}

     NFAState(char c, std::vector<int> next)
     : fKind(kChar_Kind)
     , fChar(c)
     , fNext(std::move(next)) {}

     NFAState(std::vector<int> states)
     : fKind(kRemapped_Kind)
     , fData(std::move(states)) {}

     NFAState(bool inverse, std::vector<bool> accepts, std::vector<int> next)
     : fKind(kTable_Kind)
     , fInverse(inverse)
     , fNext(std::move(next)) {
         for (bool b : accepts) {
             fData.push_back(b);
         }
     }

     NFAState(int token)
     : fKind(kAccept_Kind) {
         fData.push_back(token);
     }

     bool accept(char c) const {
         switch (fKind) {
             case kAccept_Kind:
                 return false;
             case kChar_Kind:
                 return c == fChar;
             case kDot_Kind:
                 return c != '\n';
             case kTable_Kind: {
                 bool value;
                 if ((size_t) c < fData.size()) {
                     value = fData[c];
                 } else {
                     value = false;
                 }
                 return value != fInverse;
             }
             default:
                 ABORT("unreachable");
         }
     }

     std::string description() const {
         switch (fKind) {
             case kAccept_Kind:
                 return "Accept(" + std::to_string(fData[0]) + ")";
             case kChar_Kind: {
                 std::string result = "Char('" + std::string(1, fChar) + "'";
                 for (int v : fNext) {
                     result += ", ";
                     result += std::to_string(v);
                 }
                 result += ")";
                 return result;
             }
             case kDot_Kind: {
                 std::string result = "Dot(";
                 const char* separator = "";
                 for (int v : fNext) {
                     result += separator;
                     result += std::to_string(v);
                     separator = ", ";
                 }
                 result += ")";
                 return result;
             }
             case kRemapped_Kind: {
                 std::string result = "Remapped(";
                 const char* separator = "";
                 for (int v : fData) {
                     result += separator;
                     result += std::to_string(v);
                     separator = ", ";
                 }
                 result += ")";
                 return result;
             }
             case kTable_Kind: {
                 std::string result = std::string("Table(") + (fInverse ? "true" : "false") + ", [";
                 const char* separator = "";
                 for (int v : fData) {
                     result += separator;
                     result += v ? "true" : "false";
                     separator = ", ";
                 }
                 result += "]";
                 for (int n : fNext) {
                     result += ", ";
                     result += std::to_string(n);
                 }
                 result += ")";
                 return result;
             }
             default:
                 ABORT("unreachable");
         }
     }

     Kind fKind;

     char fChar = 0;

     bool fInverse = false;

     std::vector<int> fData;

     // states we transition to upon a succesful match from this state
     std::vector<int> fNext;
 };

 #endif
	/*
	* Copyright 2017 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SKSL_NFASTATE
	#define SKSL_NFASTATE

	#include <string>
	#include <vector>

	#include "src/sksl/lex/LexUtil.h"

	struct NFAState {
	enum Kind {
	// represents an accept state - if the NFA ends up in this state, we have successfully
	// matched the token indicated by fData[0]
	kAccept_Kind,
	// matches the single character fChar
	kChar_Kind,
	// the regex '.'; matches any char but '\n'
	kDot_Kind,
	// a state which serves as a placeholder for the states indicated in fData. When we
	// transition to this state, we instead transition to all of the fData states.
	kRemapped_Kind,
	// contains a list of true/false values in fData. fData[c] tells us whether we accept the
	// character c.
	kTable_Kind
	};

	NFAState(Kind kind, std::vector<int> next)
	: fKind(kind)
	, fNext(std::move(next)) {}

	NFAState(char c, std::vector<int> next)
	: fKind(kChar_Kind)
	, fChar(c)
	, fNext(std::move(next)) {}

	NFAState(std::vector<int> states)
	: fKind(kRemapped_Kind)
	, fData(std::move(states)) {}

	NFAState(bool inverse, std::vector<bool> accepts, std::vector<int> next)
	: fKind(kTable_Kind)
	, fInverse(inverse)
	, fNext(std::move(next)) {
	for (bool b : accepts) {
	fData.push_back(b);
	}
	}

	NFAState(int token)
	: fKind(kAccept_Kind) {
	fData.push_back(token);
	}

	bool accept(char c) const {
	switch (fKind) {
	case kAccept_Kind:
	return false;
	case kChar_Kind:
	return c == fChar;
	case kDot_Kind:
	return c != '\n';
	case kTable_Kind: {
	bool value;
	if ((size_t) c < fData.size()) {
	value = fData[c];
	} else {
	value = false;
	}
	return value != fInverse;
	}
	default:
	ABORT("unreachable");
	}
	}

	std::string description() const {
	switch (fKind) {
	case kAccept_Kind:
	return "Accept(" + std::to_string(fData[0]) + ")";
	case kChar_Kind: {
	std::string result = "Char('" + std::string(1, fChar) + "'";
	for (int v : fNext) {
	result += ", ";
	result += std::to_string(v);
	}
	result += ")";
	return result;
	}
	case kDot_Kind: {
	std::string result = "Dot(";
	const char* separator = "";
	for (int v : fNext) {
	result += separator;
	result += std::to_string(v);
	separator = ", ";
	}
	result += ")";
	return result;
	}
	case kRemapped_Kind: {
	std::string result = "Remapped(";
	const char* separator = "";
	for (int v : fData) {
	result += separator;
	result += std::to_string(v);
	separator = ", ";
	}
	result += ")";
	return result;
	}
	case kTable_Kind: {
	std::string result = std::string("Table(") + (fInverse ? "true" : "false") + ", [";
	const char* separator = "";
	for (int v : fData) {
	result += separator;
	result += v ? "true" : "false";
	separator = ", ";
	}
	result += "]";
	for (int n : fNext) {
	result += ", ";
	result += std::to_string(n);
	}
	result += ")";
	return result;
	}
	default:
	ABORT("unreachable");
	}
	}

	Kind fKind;

	char fChar = 0;

	bool fInverse = false;

	std::vector<int> fData;

	// states we transition to upon a succesful match from this state
	std::vector<int> fNext;
	};

	#endif