parser.cc - platform/build/kati - Git at Google

 #include "parser.h"

 #include "ast.h"
 #include "file.h"
 #include "loc.h"
 #include "log.h"
 #include "string_piece.h"
 #include "value.h"

 enum struct ParserState {
   NOT_AFTER_RULE = 0,
   AFTER_RULE,
   MAYBE_AFTER_RULE,
 };

 class Parser {
  public:
   Parser(StringPiece buf, const char* filename, vector<AST*>* asts)
       : buf_(buf),
         state_(ParserState::NOT_AFTER_RULE),
         out_asts_(asts),
         loc_(filename, 0),
         fixed_lineno_(false) {
   }

   ~Parser() {
   }

   void Parse() {
     l_ = 0;

     for (l_ = 0; l_ < buf_.size();) {
       size_t lf_cnt = 0;
       size_t e = FindEndOfLine(&lf_cnt);
       if (!fixed_lineno_)
         loc_.lineno += lf_cnt;
       StringPiece line(buf_.data() + l_, e - l_);
       ParseLine(line);
       if (e == buf_.size())
         break;

       l_ = e + 1;
     }
   }

  private:
   void Error(const string& msg) {
     ERROR("%s:%d: %s", LOCF(loc_), msg.c_str());
   }

   size_t FindEndOfLine(size_t* lf_cnt) {
     size_t e = l_;
     bool prev_backslash = false;
     for (; e < buf_.size(); e++) {
       char c = buf_[e];
       if (c == '\\') {
         prev_backslash = !prev_backslash;
       } else if (c == '\n') {
         ++*lf_cnt;
         if (!prev_backslash) {
           return e;
         }
       } else if (c != '\r') {
         prev_backslash = false;
       }
     }
     return e;
   }

   void ParseLine(StringPiece line) {
     if (line.empty() || (line.size() == 1 && line[0] == '\r'))
       return;

     if (line[0] == '\t' && state_ != ParserState::NOT_AFTER_RULE) {
       CommandAST* ast = new CommandAST();
       ast->expr = ParseExpr(line.substr(1), true);
       out_asts_->push_back(ast);
       return;
     }

     // TODO: directive.

     size_t sep = line.find_first_of(STRING_PIECE("=:"));
     if (sep == string::npos) {
       ParseRuleAST(line, sep);
     } else if (line[sep] == '=') {
       ParseAssignAST(line, sep);
     } else if (line.get(sep+1) == '=') {
       ParseAssignAST(line, sep+1);
     } else if (line[sep] == ':') {
       ParseRuleAST(line, sep);
     } else {
       CHECK(false);
     }
   }

   void ParseRuleAST(StringPiece line, size_t sep) {
     const bool is_rule = line.find(':') != string::npos;
     RuleAST* ast = new RuleAST;
     ast->set_loc(loc_);

     size_t found = line.substr(sep + 1).find_first_of("=;");
     if (found != string::npos) {
       found += sep + 1;
       ast->term = line[found];
       ast->after_term = ParseExpr(line.substr(found + 1).StripLeftSpaces(),
                                   ast->term == ';');
       ast->expr = ParseExpr(line.substr(0, found).StripSpaces(), false);
     } else {
       ast->term = 0;
       ast->after_term = NULL;
       ast->expr = ParseExpr(line.StripSpaces(), false);
     }
     out_asts_->push_back(ast);
     state_ = is_rule ? ParserState::AFTER_RULE : ParserState::MAYBE_AFTER_RULE;
   }

   void ParseAssignAST(StringPiece line, size_t sep) {
     if (sep == 0)
       Error("*** empty variable name ***");
     AssignOp op = AssignOp::EQ;
     size_t lhs_end = sep;
     switch (line[sep-1]) {
       case ':':
         lhs_end--;
         op = AssignOp::COLON_EQ;
         break;
       case '+':
         lhs_end--;
         op = AssignOp::PLUS_EQ;
         break;
       case '?':
         lhs_end--;
         op = AssignOp::QUESTION_EQ;
         break;
     }

     AssignAST* ast = new AssignAST;
     ast->set_loc(loc_);
     ast->lhs = ParseExpr(line.substr(0, lhs_end).StripSpaces(), false);
     ast->rhs = ParseExpr(line.substr(sep + 1).StripLeftSpaces(), false);
     ast->op = op;
     ast->directive = AssignDirective::NONE;
     out_asts_->push_back(ast);
     state_ = ParserState::NOT_AFTER_RULE;
   }

   StringPiece buf_;
   size_t l_;
   ParserState state_;

   vector<AST*>* out_asts_;

   Loc loc_;
   bool fixed_lineno_;
 };

 void Parse(Makefile* mk) {
   Parser parser(StringPiece(mk->buf(), mk->len()),
                 mk->filename().c_str(),
                 mk->mutable_asts());
   parser.Parse();
 }
	#include "parser.h"

	#include "ast.h"
	#include "file.h"
	#include "loc.h"
	#include "log.h"
	#include "string_piece.h"
	#include "value.h"

	enum struct ParserState {
	NOT_AFTER_RULE = 0,
	AFTER_RULE,
	MAYBE_AFTER_RULE,
	};

	class Parser {
	public:
	Parser(StringPiece buf, const char* filename, vector<AST> asts)
	: buf_(buf),
	state_(ParserState::NOT_AFTER_RULE),
	out_asts_(asts),
	loc_(filename, 0),
	fixed_lineno_(false) {
	}

	~Parser() {
	}

	void Parse() {
	l_ = 0;

	for (l_ = 0; l_ < buf_.size();) {
	size_t lf_cnt = 0;
	size_t e = FindEndOfLine(&lf_cnt);
	if (!fixed_lineno_)
	loc_.lineno += lf_cnt;
	StringPiece line(buf_.data() + l_, e - l_);
	ParseLine(line);
	if (e == buf_.size())
	break;

	l_ = e + 1;
	}
	}

	private:
	void Error(const string& msg) {
	ERROR("%s:%d: %s", LOCF(loc_), msg.c_str());
	}

	size_t FindEndOfLine(size_t* lf_cnt) {
	size_t e = l_;
	bool prev_backslash = false;
	for (; e < buf_.size(); e++) {
	char c = buf_[e];
	if (c == '\\') {
	prev_backslash = !prev_backslash;
	} else if (c == '\n') {
	++*lf_cnt;
	if (!prev_backslash) {
	return e;
	}
	} else if (c != '\r') {
	prev_backslash = false;
	}
	}
	return e;
	}

	void ParseLine(StringPiece line) {
	if (line.empty() \|\| (line.size() == 1 && line[0] == '\r'))
	return;

	if (line[0] == '\t' && state_ != ParserState::NOT_AFTER_RULE) {
	CommandAST* ast = new CommandAST();
	ast->expr = ParseExpr(line.substr(1), true);
	out_asts_->push_back(ast);
	return;
	}

	// TODO: directive.

	size_t sep = line.find_first_of(STRING_PIECE("=:"));
	if (sep == string::npos) {
	ParseRuleAST(line, sep);
	} else if (line[sep] == '=') {
	ParseAssignAST(line, sep);
	} else if (line.get(sep+1) == '=') {
	ParseAssignAST(line, sep+1);
	} else if (line[sep] == ':') {
	ParseRuleAST(line, sep);
	} else {
	CHECK(false);
	}
	}

	void ParseRuleAST(StringPiece line, size_t sep) {
	const bool is_rule = line.find(':') != string::npos;
	RuleAST* ast = new RuleAST;
	ast->set_loc(loc_);

	size_t found = line.substr(sep + 1).find_first_of("=;");
	if (found != string::npos) {
	found += sep + 1;
	ast->term = line[found];
	ast->after_term = ParseExpr(line.substr(found + 1).StripLeftSpaces(),
	ast->term == ';');
	ast->expr = ParseExpr(line.substr(0, found).StripSpaces(), false);
	} else {
	ast->term = 0;
	ast->after_term = NULL;
	ast->expr = ParseExpr(line.StripSpaces(), false);
	}
	out_asts_->push_back(ast);
	state_ = is_rule ? ParserState::AFTER_RULE : ParserState::MAYBE_AFTER_RULE;
	}

	void ParseAssignAST(StringPiece line, size_t sep) {
	if (sep == 0)
	Error("* empty variable name *");
	AssignOp op = AssignOp::EQ;
	size_t lhs_end = sep;
	switch (line[sep-1]) {
	case ':':
	lhs_end--;
	op = AssignOp::COLON_EQ;
	break;
	case '+':
	lhs_end--;
	op = AssignOp::PLUS_EQ;
	break;
	case '?':
	lhs_end--;
	op = AssignOp::QUESTION_EQ;
	break;
	}

	AssignAST* ast = new AssignAST;
	ast->set_loc(loc_);
	ast->lhs = ParseExpr(line.substr(0, lhs_end).StripSpaces(), false);
	ast->rhs = ParseExpr(line.substr(sep + 1).StripLeftSpaces(), false);
	ast->op = op;
	ast->directive = AssignDirective::NONE;
	out_asts_->push_back(ast);
	state_ = ParserState::NOT_AFTER_RULE;
	}

	StringPiece buf_;
	size_t l_;
	ParserState state_;

	vector<AST> out_asts_;

	Loc loc_;
	bool fixed_lineno_;
	};

	void Parse(Makefile* mk) {
	Parser parser(StringPiece(mk->buf(), mk->len()),
	mk->filename().c_str(),
	mk->mutable_asts());
	parser.Parse();
	}