Source/LexerParser/cmExprParser.y - third_party/cmake - Git at Google

 %{
 /* Distributed under the OSI-approved BSD 3-Clause License.  See accompanying
    file Copyright.txt or https://cmake.org/licensing for details.  */
 /*

 This file must be translated to C and modified to build everywhere.

 Run bison like this:

   bison --yacc --name-prefix=cmExpr_yy --defines=cmExprParserTokens.h -ocmExprParser.cxx cmExprParser.y

 Modify cmExprParser.cxx:
   - "#if 0" out yyerrorlab block in range ["goto yyerrlab1", "yyerrlab1:"]

 */

 #include "cmConfigure.h" // IWYU pragma: keep

 #include <stdlib.h>
 #include <string.h>
 #include <stdexcept>

 /*-------------------------------------------------------------------------*/
 #define YYDEBUG 1
 #include "cmExprParserHelper.h" /* Interface to parser object.  */
 #include "cmExprLexer.h"  /* Interface to lexer object.  */
 #include "cmExprParserTokens.h" /* Need YYSTYPE for YY_DECL.  */

 /* Forward declare the lexer entry point.  */
 YY_DECL;

 /* Helper function to forward error callback from parser.  */
 static void cmExpr_yyerror(yyscan_t yyscanner, const char* message);

 /* Disable some warnings in the generated code.  */
 #ifdef _MSC_VER
 # pragma warning (disable: 4102) /* Unused goto label.  */
 # pragma warning (disable: 4065) /* Switch statement contains default but no case. */
 #endif
 #if defined(__GNUC__) && __GNUC__ >= 8
 # pragma GCC diagnostic ignored "-Wconversion"
 #endif
 %}

 /* Generate a reentrant parser object.  */
 %define api.pure

 /* Configure the parser to use a lexer object.  */
 %lex-param   {yyscan_t yyscanner}
 %parse-param {yyscan_t yyscanner}

 %define parse.error verbose

 /*-------------------------------------------------------------------------*/
 /* Tokens */
 %token exp_PLUS
 %token exp_MINUS
 %token exp_TIMES
 %token exp_DIVIDE
 %token exp_MOD
 %token exp_SHIFTLEFT
 %token exp_SHIFTRIGHT
 %token exp_OPENPARENT
 %token exp_CLOSEPARENT
 %token exp_OR;
 %token exp_AND;
 %token exp_XOR;
 %token exp_NOT;
 %token exp_NUMBER;

 /*-------------------------------------------------------------------------*/
 /* grammar */
 %%


 start:
   exp {
     cmExpr_yyget_extra(yyscanner)->SetResult($<Number>1);
   }

 exp:
   bitwiseor {
     $<Number>$ = $<Number>1;
   }
 | exp exp_OR bitwiseor {
     $<Number>$ = $<Number>1 | $<Number>3;
   }

 bitwiseor:
   bitwisexor {
     $<Number>$ = $<Number>1;
   }
 | bitwiseor exp_XOR bitwisexor {
     $<Number>$ = $<Number>1 ^ $<Number>3;
   }

 bitwisexor:
   bitwiseand {
     $<Number>$ = $<Number>1;
   }
 | bitwisexor exp_AND bitwiseand {
     $<Number>$ = $<Number>1 & $<Number>3;
   }

 bitwiseand:
   shift {
     $<Number>$ = $<Number>1;
   }
 | bitwiseand exp_SHIFTLEFT shift {
     $<Number>$ = $<Number>1 << $<Number>3;
   }
 | bitwiseand exp_SHIFTRIGHT shift {
     $<Number>$ = $<Number>1 >> $<Number>3;
   }

 shift:
   term {
     $<Number>$ = $<Number>1;
   }
 | shift exp_PLUS term {
     $<Number>$ = $<Number>1 + $<Number>3;
   }
 | shift exp_MINUS term {
     $<Number>$ = $<Number>1 - $<Number>3;
   }

 term:
   unary {
     $<Number>$ = $<Number>1;
   }
 | term exp_TIMES unary {
     $<Number>$ = $<Number>1 * $<Number>3;
   }
 | term exp_DIVIDE unary {
     if (yyvsp[0].Number == 0) {
       throw std::overflow_error("divide by zero");
     }
     $<Number>$ = $<Number>1 / $<Number>3;
   }
 | term exp_MOD unary {
     $<Number>$ = $<Number>1 % $<Number>3;
   }

 unary:
   factor {
     $<Number>$ = $<Number>1;
   }
 | exp_PLUS unary {
     $<Number>$ = + $<Number>2;
   }
 | exp_MINUS unary {
     $<Number>$ = - $<Number>2;
   }
 | exp_NOT unary {
     $<Number>$ = ~ $<Number>2;
   }

 factor:
   exp_NUMBER {
     $<Number>$ = $<Number>1;
   }
 | exp_OPENPARENT exp exp_CLOSEPARENT {
     $<Number>$ = $<Number>2;
   }
 ;

 %%
 /* End of grammar */

 /*--------------------------------------------------------------------------*/
 void cmExpr_yyerror(yyscan_t yyscanner, const char* message)
 {
   cmExpr_yyget_extra(yyscanner)->Error(message);
 }
	%{
	/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
	file Copyright.txt or https://cmake.org/licensing for details. */
	/*

	This file must be translated to C and modified to build everywhere.

	Run bison like this:

	bison --yacc --name-prefix=cmExpr_yy --defines=cmExprParserTokens.h -ocmExprParser.cxx cmExprParser.y

	Modify cmExprParser.cxx:
	- "#if 0" out yyerrorlab block in range ["goto yyerrlab1", "yyerrlab1:"]

	*/

	#include "cmConfigure.h" // IWYU pragma: keep

	#include <stdlib.h>
	#include <string.h>
	#include <stdexcept>

	/-------------------------------------------------------------------------/
	#define YYDEBUG 1
	#include "cmExprParserHelper.h" /* Interface to parser object. */
	#include "cmExprLexer.h" /* Interface to lexer object. */
	#include "cmExprParserTokens.h" /* Need YYSTYPE for YY_DECL. */

	/* Forward declare the lexer entry point. */
	YY_DECL;

	/* Helper function to forward error callback from parser. */
	static void cmExpr_yyerror(yyscan_t yyscanner, const char* message);

	/* Disable some warnings in the generated code. */
	#ifdef _MSC_VER
	# pragma warning (disable: 4102) /* Unused goto label. */
	# pragma warning (disable: 4065) /* Switch statement contains default but no case. */
	#endif
	#if defined(__GNUC__) && __GNUC__ >= 8
	# pragma GCC diagnostic ignored "-Wconversion"
	#endif
	%}

	/* Generate a reentrant parser object. */
	%define api.pure

	/* Configure the parser to use a lexer object. */
	%lex-param {yyscan_t yyscanner}
	%parse-param {yyscan_t yyscanner}

	%define parse.error verbose

	/-------------------------------------------------------------------------/
	/* Tokens */
	%token exp_PLUS
	%token exp_MINUS
	%token exp_TIMES
	%token exp_DIVIDE
	%token exp_MOD
	%token exp_SHIFTLEFT
	%token exp_SHIFTRIGHT
	%token exp_OPENPARENT
	%token exp_CLOSEPARENT
	%token exp_OR;
	%token exp_AND;
	%token exp_XOR;
	%token exp_NOT;
	%token exp_NUMBER;

	/-------------------------------------------------------------------------/
	/* grammar */
	%%


	start:
	exp {
	cmExpr_yyget_extra(yyscanner)->SetResult($<Number>1);
	}

	exp:
	bitwiseor {
	$<Number>$ = $<Number>1;
	}
	\| exp exp_OR bitwiseor {
	$<Number>$ = $<Number>1 \| $<Number>3;
	}

	bitwiseor:
	bitwisexor {
	$<Number>$ = $<Number>1;
	}
	\| bitwiseor exp_XOR bitwisexor {
	$<Number>$ = $<Number>1 ^ $<Number>3;
	}

	bitwisexor:
	bitwiseand {
	$<Number>$ = $<Number>1;
	}
	\| bitwisexor exp_AND bitwiseand {
	$<Number>$ = $<Number>1 & $<Number>3;
	}

	bitwiseand:
	shift {
	$<Number>$ = $<Number>1;
	}
	\| bitwiseand exp_SHIFTLEFT shift {
	$<Number>$ = $<Number>1 << $<Number>3;
	}
	\| bitwiseand exp_SHIFTRIGHT shift {
	$<Number>$ = $<Number>1 >> $<Number>3;
	}

	shift:
	term {
	$<Number>$ = $<Number>1;
	}
	\| shift exp_PLUS term {
	$<Number>$ = $<Number>1 + $<Number>3;
	}
	\| shift exp_MINUS term {
	$<Number>$ = $<Number>1 - $<Number>3;
	}

	term:
	unary {
	$<Number>$ = $<Number>1;
	}
	\| term exp_TIMES unary {
	$<Number>$ = $<Number>1 * $<Number>3;
	}
	\| term exp_DIVIDE unary {
	if (yyvsp[0].Number == 0) {
	throw std::overflow_error("divide by zero");
	}
	$<Number>$ = $<Number>1 / $<Number>3;
	}
	\| term exp_MOD unary {
	$<Number>$ = $<Number>1 % $<Number>3;
	}

	unary:
	factor {
	$<Number>$ = $<Number>1;
	}
	\| exp_PLUS unary {
	$<Number>$ = + $<Number>2;
	}
	\| exp_MINUS unary {
	$<Number>$ = - $<Number>2;
	}
	\| exp_NOT unary {
	$<Number>$ = ~ $<Number>2;
	}

	factor:
	exp_NUMBER {
	$<Number>$ = $<Number>1;
	}
	\| exp_OPENPARENT exp exp_CLOSEPARENT {
	$<Number>$ = $<Number>2;
	}
	;

	%%
	/* End of grammar */

	/--------------------------------------------------------------------------/
	void cmExpr_yyerror(yyscan_t yyscanner, const char* message)
	{
	cmExpr_yyget_extra(yyscanner)->Error(message);
	}