src/sksl/lex/RegexNode.cpp - skia - 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.
  */

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

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

 #include <string>

 std::vector<int> RegexNode::createStates(NFA* nfa, const std::vector<int>& accept) const {
     std::vector<int> result;
     switch (fKind) {
         case kChar_Kind:
             result.push_back(nfa->addState(NFAState(fPayload.fChar, accept)));
             break;
         case kCharset_Kind: {
             std::vector<bool> chars;
             for (const RegexNode& child : fChildren) {
                 if (child.fKind == kChar_Kind) {
                     while (chars.size() <= (size_t) child.fPayload.fChar) {
                         chars.push_back(false);
                     }
                     chars[child.fPayload.fChar] = true;
                 } else {
                     SkASSERT(child.fKind == kRange_Kind);
                     while (chars.size() <= (size_t) child.fChildren[1].fPayload.fChar) {
                         chars.push_back(false);
                     }
                     for (char c = child.fChildren[0].fPayload.fChar;
                          c <= child.fChildren[1].fPayload.fChar;
                          ++c) {
                         chars[c] = true;
                     }
                 }
             }
             result.push_back(nfa->addState(NFAState(fPayload.fBool, chars, accept)));
             break;
         }
         case kConcat_Kind: {
             std::vector<int> right = fChildren[1].createStates(nfa, accept);
             result = fChildren[0].createStates(nfa, right);
             break;
         }
         case kDot_Kind:
             result.push_back(nfa->addState(NFAState(NFAState::kDot_Kind, accept)));
             break;
         case kOr_Kind: {
             std::vector<int> states = fChildren[0].createStates(nfa, accept);
             result.insert(result.end(), states.begin(), states.end());
             states = fChildren[1].createStates(nfa, accept);
             result.insert(result.end(), states.begin(), states.end());
             break;
         }
         case kPlus_Kind: {
             std::vector<int> next = accept;
             std::vector<int> placeholder;
             int id = nfa->addState(NFAState(placeholder));
             next.push_back(id);
             result = fChildren[0].createStates(nfa, next);
             nfa->fStates[id] = NFAState(result);
             break;
         }
         case kQuestion_Kind:
             result = fChildren[0].createStates(nfa, accept);
             result.insert(result.end(), accept.begin(), accept.end());
             break;
         case kRange_Kind:
             SkUNREACHABLE;
         case kStar_Kind: {
             std::vector<int> next = accept;
             std::vector<int> placeholder;
             int id = nfa->addState(NFAState(placeholder));
             next.push_back(id);
             result = fChildren[0].createStates(nfa, next);
             result.insert(result.end(), accept.begin(), accept.end());
             nfa->fStates[id] = NFAState(result);
             break;
         }
     }
     return result;
 }

 #ifdef SK_DEBUG
 std::string RegexNode::description() const {
     switch (fKind) {
         case kChar_Kind:
             return std::string(1, fPayload.fChar);
         case kCharset_Kind: {
             std::string result("[");
             if (fPayload.fBool) {
                 result += "^";
             }
             for (const RegexNode& c : fChildren) {
                 result += c.description();
             }
             result += "]";
             return result;
         }
         case kConcat_Kind:
             return fChildren[0].description() + fChildren[1].description();
         case kDot_Kind:
             return ".";
         case kOr_Kind:
             return "(" + fChildren[0].description() + "|" + fChildren[1].description() + ")";
         case kPlus_Kind:
             return fChildren[0].description() + "+";
         case kQuestion_Kind:
             return fChildren[0].description() + "?";
         case kRange_Kind:
             return fChildren[0].description() + "-" + fChildren[1].description();
         case kStar_Kind:
             return fChildren[0].description() + "*";
         default:
             return "<" + std::to_string(fKind) + ">";
     }
 }
 #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.
	*/

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

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

	#include <string>

	std::vector<int> RegexNode::createStates(NFA* nfa, const std::vector<int>& accept) const {
	std::vector<int> result;
	switch (fKind) {
	case kChar_Kind:
	result.push_back(nfa->addState(NFAState(fPayload.fChar, accept)));
	break;
	case kCharset_Kind: {
	std::vector<bool> chars;
	for (const RegexNode& child : fChildren) {
	if (child.fKind == kChar_Kind) {
	while (chars.size() <= (size_t) child.fPayload.fChar) {
	chars.push_back(false);
	}
	chars[child.fPayload.fChar] = true;
	} else {
	SkASSERT(child.fKind == kRange_Kind);
	while (chars.size() <= (size_t) child.fChildren[1].fPayload.fChar) {
	chars.push_back(false);
	}
	for (char c = child.fChildren[0].fPayload.fChar;
	c <= child.fChildren[1].fPayload.fChar;
	++c) {
	chars[c] = true;
	}
	}
	}
	result.push_back(nfa->addState(NFAState(fPayload.fBool, chars, accept)));
	break;
	}
	case kConcat_Kind: {
	std::vector<int> right = fChildren[1].createStates(nfa, accept);
	result = fChildren[0].createStates(nfa, right);
	break;
	}
	case kDot_Kind:
	result.push_back(nfa->addState(NFAState(NFAState::kDot_Kind, accept)));
	break;
	case kOr_Kind: {
	std::vector<int> states = fChildren[0].createStates(nfa, accept);
	result.insert(result.end(), states.begin(), states.end());
	states = fChildren[1].createStates(nfa, accept);
	result.insert(result.end(), states.begin(), states.end());
	break;
	}
	case kPlus_Kind: {
	std::vector<int> next = accept;
	std::vector<int> placeholder;
	int id = nfa->addState(NFAState(placeholder));
	next.push_back(id);
	result = fChildren[0].createStates(nfa, next);
	nfa->fStates[id] = NFAState(result);
	break;
	}
	case kQuestion_Kind:
	result = fChildren[0].createStates(nfa, accept);
	result.insert(result.end(), accept.begin(), accept.end());
	break;
	case kRange_Kind:
	SkUNREACHABLE;
	case kStar_Kind: {
	std::vector<int> next = accept;
	std::vector<int> placeholder;
	int id = nfa->addState(NFAState(placeholder));
	next.push_back(id);
	result = fChildren[0].createStates(nfa, next);
	result.insert(result.end(), accept.begin(), accept.end());
	nfa->fStates[id] = NFAState(result);
	break;
	}
	}
	return result;
	}

	#ifdef SK_DEBUG
	std::string RegexNode::description() const {
	switch (fKind) {
	case kChar_Kind:
	return std::string(1, fPayload.fChar);
	case kCharset_Kind: {
	std::string result("[");
	if (fPayload.fBool) {
	result += "^";
	}
	for (const RegexNode& c : fChildren) {
	result += c.description();
	}
	result += "]";
	return result;
	}
	case kConcat_Kind:
	return fChildren[0].description() + fChildren[1].description();
	case kDot_Kind:
	return ".";
	case kOr_Kind:
	return "(" + fChildren[0].description() + "\|" + fChildren[1].description() + ")";
	case kPlus_Kind:
	return fChildren[0].description() + "+";
	case kQuestion_Kind:
	return fChildren[0].description() + "?";
	case kRange_Kind:
	return fChildren[0].description() + "-" + fChildren[1].description();
	case kStar_Kind:
	return fChildren[0].description() + "*";
	default:
	return "<" + std::to_string(fKind) + ">";
	}
	}
	#endif