boost_1_45_0/libs/preprocessor/doc/examples/array_arithmetic.c - nest-learning-thermostat/5.0/boost - Git at Google

 # /* Copyright (C) 2002
 #  * Housemarque Oy
 #  * http://www.housemarque.com
 #  *
 #  * Distributed under the Boost Software License, Version 1.0. (See
 #  * accompanying file LICENSE_1_0.txt or copy at
 #  * http://www.boost.org/LICENSE_1_0.txt)
 #  */
 #
 # /* Revised by Paul Mensonides (2002) */
 #
 # /* See http://www.boost.org for most recent version. */
 #
 # /* This example implements over 2200 functions for 1-dimensional arithmetic
 #  * array manipulation in C.  The idea is to use preprocessor data structures,
 #  * lists, and tuples for storing metainformation to be used for generating
 #  * the actual C code.
 #  *
 #  * Who needs templates anyway? :)
 #  *
 #  * Compile with any C compiler with a standards conforming preprocessor.
 #  */
 #
 # include <boost/preprocessor/comparison/less.hpp>
 # include <boost/preprocessor/control/if.hpp>
 # include <boost/preprocessor/list/at.hpp>
 # include <boost/preprocessor/list/cat.hpp>
 # include <boost/preprocessor/list/for_each_product.hpp>
 # include <boost/preprocessor/logical/or.hpp>
 # include <boost/preprocessor/tuple/to_list.hpp>
 # include <boost/preprocessor/tuple/eat.hpp>
 #
 # /* Information about C operators */
 #
 # /* Accessors for the operator datatype. */
 # define OP_SYMBOL(O)      BOOST_PP_TUPLE_ELEM(5, 0, O)
 # define OP_NAME(O)        BOOST_PP_TUPLE_ELEM(5, 1, O)
 # define OP_IS_FLOATING(O) BOOST_PP_TUPLE_ELEM(5, 2, O)
 # define OP_IS_LOGICAL(O)  BOOST_PP_TUPLE_ELEM(5, 3, O)
 # define OP_IS_SHIFT(O)    BOOST_PP_TUPLE_ELEM(5, 4, O)
 #
 # /* List of applicative unary operators. */
 # define APPLICATIVE_UNARY_OPS \
    BOOST_PP_TUPLE_TO_LIST( \
       3, \
       ( \
          ( ! , logical_not, 1, 1, 0), \
          ( ~ , bitwise_not, 0, 0, 0), \
          ( - , neg,         1, 0, 0) \
       ) \
    ) \
    /**/
 #
 # /* List of applicative binary operators. */
 # define APPLICATIVE_BINARY_OPS \
    BOOST_PP_TUPLE_TO_LIST( \
       18, \
       ( \
          ( *  , mul           ,1 ,0 ,0), \
          ( /  , div           ,1 ,0 ,0), \
          ( %  , mod           ,0 ,0 ,0), \
          ( +  , add           ,1 ,0 ,0), \
          ( -  , sub           ,1 ,0 ,0), \
          ( << , shift_left    ,0 ,0 ,1), \
          ( >> , shift_right   ,0 ,0 ,1), \
          ( <  , less          ,1 ,1 ,0), \
          ( <= , less_equal    ,1 ,1 ,0), \
          ( >= , greater_equal ,1 ,1 ,0), \
          ( >  , greater       ,1 ,1 ,0), \
          ( == , equal         ,1 ,1 ,0), \
          ( != , not_equal     ,1 ,1 ,0), \
          ( &  , bitwise_and   ,0 ,0 ,0), \
          ( |  , bitwise_or    ,0 ,0 ,0), \
          ( ^  , bitwise_xor   ,0 ,0 ,0), \
          ( && , logical_and   ,1 ,1 ,0), \
          ( || , logical_or    ,1 ,1 ,0) \
       ) \
    ) \
    /**/
 #
 # /* Information about C built-in types. */
 #
 # /* Accessors for the type datatype. */
 # define TYPE_NAME(T)         BOOST_PP_TUPLE_ELEM(4, 0, T)
 # define TYPE_ABBREVIATION(T) BOOST_PP_TUPLE_ELEM(4, 1, T)
 # define TYPE_IS_FLOATING(T)  BOOST_PP_TUPLE_ELEM(4, 2, T)
 # define TYPE_RANK(T)         BOOST_PP_TUPLE_ELEM(4, 3, T)
 #
 # /* List of C built-in types. */
 # define BUILTIN_TYPES \
    BOOST_PP_TUPLE_TO_LIST( \
       12, \
       ( \
          ( signed char    ,sc, 0, 1), \
          ( char           ,ch, 0, 1), \
          ( unsigned char  ,uc, 0, 1), \
          ( short          ,ss, 0, 2), \
          ( unsigned short ,us, 0, 2), \
          TYPE_INT, \
          ( unsigned       ,ui, 0, 4), \
          ( long           ,sl, 0, 5), \
          ( unsigned long  ,ul, 0, 6), \
          ( float          ,fl, 1, 7), \
          ( double         ,db, 1, 8), \
          ( long double    ,ld, 1, 9) \
       ) \
    ) \
    /**/
 #
 # /* Type int is needed in some type computations. */
 # define TYPE_INT (int, si, 0, 3)
 #
 # /* Type computation macros. */
 # define TYPE_OF_INTEGER_PROMOTION(T) \
    BOOST_PP_IF( \
       BOOST_PP_LESS(TYPE_RANK(T), TYPE_RANK(TYPE_INT)), \
       TYPE_INT, T \
    ) \
    /**/
 # define TYPE_OF_USUAL_ARITHMETIC_CONVERSION(L, R) \
    TYPE_OF_INTEGER_PROMOTION( \
       BOOST_PP_IF( \
          BOOST_PP_LESS(TYPE_RANK(L), TYPE_RANK(R)), \
          R, L \
       ) \
    ) \
    /**/
 # define TYPE_OF_UNARY_OP(O, T) \
    BOOST_PP_IF( \
       OP_IS_LOGICAL(O), \
       TYPE_INT, TYPE_OF_INTEGER_PROMOTION(T) \
    ) \
    /**/
 # define TYPE_OF_BINARY_OP(O, L, R) \
    BOOST_PP_IF( \
       OP_IS_LOGICAL(O), TYPE_INT, \
       BOOST_PP_IF( \
          OP_IS_SHIFT(O), \
          TYPE_OF_INTEGER_PROMOTION(L), \
          TYPE_OF_USUAL_ARITHMETIC_CONVERSION(L,R) \
       ) \
    ) \
    /**/
 # define IS_VALID_UNARY_OP_AND_TYPE_COMBINATION(O, T) \
    BOOST_PP_IF( \
       TYPE_IS_FLOATING(T), \
       OP_IS_FLOATING(O), 1 \
    ) \
    /**/
 # define IS_VALID_BINARY_OP_AND_TYPE_COMBINATION(O, L, R) \
    BOOST_PP_IF( \
       BOOST_PP_OR(TYPE_IS_FLOATING(L), TYPE_IS_FLOATING(R)), \
       OP_IS_FLOATING(O), 1 \
    ) \
    /**/
 #
 # /* Generates code for all unary operators and integral types. */
 # define UNARY_ARRAY_OP(_, OT) \
    BOOST_PP_IF( \
       IS_VALID_UNARY_OP_AND_TYPE_COMBINATION OT, \
       UNARY_ARRAY_OP_CODE, BOOST_PP_TUPLE_EAT(2) \
    ) OT \
    /**/
 # define UNARY_ARRAY_OP_CODE(O, T) \
    void BOOST_PP_LIST_CAT(BOOST_PP_TUPLE_TO_LIST(4, (array_, OP_NAME(O), _, TYPE_ABBREVIATION(T)))) \
    (const TYPE_NAME(T)* in, TYPE_NAME(TYPE_OF_UNARY_OP(O, T))* out, unsigned n) { \
       do { \
          *out++ = OP_SYMBOL(O) *in++; \
       } while (--n); \
    } \
    /**/

 BOOST_PP_LIST_FOR_EACH_PRODUCT(UNARY_ARRAY_OP, 2, (APPLICATIVE_UNARY_OPS, BUILTIN_TYPES))

 # /* Generates code for all binary operators and integral type pairs. */
 # define BINARY_ARRAY_OP(_, OLR) \
    BOOST_PP_IF( \
       IS_VALID_BINARY_OP_AND_TYPE_COMBINATION OLR, \
       BINARY_ARRAY_OP_CODE, BOOST_PP_TUPLE_EAT(3) \
    ) OLR \
    /**/
 # define BINARY_ARRAY_OP_CODE(O, L, R) \
    void BOOST_PP_LIST_CAT( \
       BOOST_PP_TUPLE_TO_LIST( \
          6, (array_, OP_NAME(O), _, TYPE_ABBREVIATION(L), _, TYPE_ABBREVIATION(R)) \
       ) \
    )(const TYPE_NAME(L)* lhs_in, const TYPE_NAME(R)* rhs_in, TYPE_NAME(TYPE_OF_BINARY_OP(O, L, R))* out, unsigned n) { \
       do { \
          *out++ = *lhs_in OP_SYMBOL(O) *rhs_in; \
          ++lhs_in; \
          ++rhs_in; \
       } while (--n); \
    } \
    /**/

 BOOST_PP_LIST_FOR_EACH_PRODUCT(BINARY_ARRAY_OP, 3, (APPLICATIVE_BINARY_OPS, BUILTIN_TYPES, BUILTIN_TYPES))
	# /* Copyright (C) 2002
	# * Housemarque Oy
	# * http://www.housemarque.com
	# *
	# * Distributed under the Boost Software License, Version 1.0. (See
	# * accompanying file LICENSE_1_0.txt or copy at
	# * http://www.boost.org/LICENSE_1_0.txt)
	# */
	#
	# /* Revised by Paul Mensonides (2002) */
	#
	# /* See http://www.boost.org for most recent version. */
	#
	# /* This example implements over 2200 functions for 1-dimensional arithmetic
	# * array manipulation in C. The idea is to use preprocessor data structures,
	# * lists, and tuples for storing metainformation to be used for generating
	# * the actual C code.
	# *
	# * Who needs templates anyway? :)
	# *
	# * Compile with any C compiler with a standards conforming preprocessor.
	# */
	#
	# include <boost/preprocessor/comparison/less.hpp>
	# include <boost/preprocessor/control/if.hpp>
	# include <boost/preprocessor/list/at.hpp>
	# include <boost/preprocessor/list/cat.hpp>
	# include <boost/preprocessor/list/for_each_product.hpp>
	# include <boost/preprocessor/logical/or.hpp>
	# include <boost/preprocessor/tuple/to_list.hpp>
	# include <boost/preprocessor/tuple/eat.hpp>
	#
	# /* Information about C operators */
	#
	# /* Accessors for the operator datatype. */
	# define OP_SYMBOL(O) BOOST_PP_TUPLE_ELEM(5, 0, O)
	# define OP_NAME(O) BOOST_PP_TUPLE_ELEM(5, 1, O)
	# define OP_IS_FLOATING(O) BOOST_PP_TUPLE_ELEM(5, 2, O)
	# define OP_IS_LOGICAL(O) BOOST_PP_TUPLE_ELEM(5, 3, O)
	# define OP_IS_SHIFT(O) BOOST_PP_TUPLE_ELEM(5, 4, O)
	#
	# /* List of applicative unary operators. */
	# define APPLICATIVE_UNARY_OPS \
	BOOST_PP_TUPLE_TO_LIST( \
	3, \
	( \
	( ! , logical_not, 1, 1, 0), \
	( ~ , bitwise_not, 0, 0, 0), \
	( - , neg, 1, 0, 0) \
	) \
	) \
	/**/
	#
	# /* List of applicative binary operators. */
	# define APPLICATIVE_BINARY_OPS \
	BOOST_PP_TUPLE_TO_LIST( \
	18, \
	( \
	( * , mul ,1 ,0 ,0), \
	( / , div ,1 ,0 ,0), \
	( % , mod ,0 ,0 ,0), \
	( + , add ,1 ,0 ,0), \
	( - , sub ,1 ,0 ,0), \
	( << , shift_left ,0 ,0 ,1), \
	( >> , shift_right ,0 ,0 ,1), \
	( < , less ,1 ,1 ,0), \
	( <= , less_equal ,1 ,1 ,0), \
	( >= , greater_equal ,1 ,1 ,0), \
	( > , greater ,1 ,1 ,0), \
	( == , equal ,1 ,1 ,0), \
	( != , not_equal ,1 ,1 ,0), \
	( & , bitwise_and ,0 ,0 ,0), \
	( \| , bitwise_or ,0 ,0 ,0), \
	( ^ , bitwise_xor ,0 ,0 ,0), \
	( && , logical_and ,1 ,1 ,0), \
	( \|\| , logical_or ,1 ,1 ,0) \
	) \
	) \
	/**/
	#
	# /* Information about C built-in types. */
	#
	# /* Accessors for the type datatype. */
	# define TYPE_NAME(T) BOOST_PP_TUPLE_ELEM(4, 0, T)
	# define TYPE_ABBREVIATION(T) BOOST_PP_TUPLE_ELEM(4, 1, T)
	# define TYPE_IS_FLOATING(T) BOOST_PP_TUPLE_ELEM(4, 2, T)
	# define TYPE_RANK(T) BOOST_PP_TUPLE_ELEM(4, 3, T)
	#
	# /* List of C built-in types. */
	# define BUILTIN_TYPES \
	BOOST_PP_TUPLE_TO_LIST( \
	12, \
	( \
	( signed char ,sc, 0, 1), \
	( char ,ch, 0, 1), \
	( unsigned char ,uc, 0, 1), \
	( short ,ss, 0, 2), \
	( unsigned short ,us, 0, 2), \
	TYPE_INT, \
	( unsigned ,ui, 0, 4), \
	( long ,sl, 0, 5), \
	( unsigned long ,ul, 0, 6), \
	( float ,fl, 1, 7), \
	( double ,db, 1, 8), \
	( long double ,ld, 1, 9) \
	) \
	) \
	/**/
	#
	# /* Type int is needed in some type computations. */
	# define TYPE_INT (int, si, 0, 3)
	#
	# /* Type computation macros. */
	# define TYPE_OF_INTEGER_PROMOTION(T) \
	BOOST_PP_IF( \
	BOOST_PP_LESS(TYPE_RANK(T), TYPE_RANK(TYPE_INT)), \
	TYPE_INT, T \
	) \
	/**/
	# define TYPE_OF_USUAL_ARITHMETIC_CONVERSION(L, R) \
	TYPE_OF_INTEGER_PROMOTION( \
	BOOST_PP_IF( \
	BOOST_PP_LESS(TYPE_RANK(L), TYPE_RANK(R)), \
	R, L \
	) \
	) \
	/**/
	# define TYPE_OF_UNARY_OP(O, T) \
	BOOST_PP_IF( \
	OP_IS_LOGICAL(O), \
	TYPE_INT, TYPE_OF_INTEGER_PROMOTION(T) \
	) \
	/**/
	# define TYPE_OF_BINARY_OP(O, L, R) \
	BOOST_PP_IF( \
	OP_IS_LOGICAL(O), TYPE_INT, \
	BOOST_PP_IF( \
	OP_IS_SHIFT(O), \
	TYPE_OF_INTEGER_PROMOTION(L), \
	TYPE_OF_USUAL_ARITHMETIC_CONVERSION(L,R) \
	) \
	) \
	/**/
	# define IS_VALID_UNARY_OP_AND_TYPE_COMBINATION(O, T) \
	BOOST_PP_IF( \
	TYPE_IS_FLOATING(T), \
	OP_IS_FLOATING(O), 1 \
	) \
	/**/
	# define IS_VALID_BINARY_OP_AND_TYPE_COMBINATION(O, L, R) \
	BOOST_PP_IF( \
	BOOST_PP_OR(TYPE_IS_FLOATING(L), TYPE_IS_FLOATING(R)), \
	OP_IS_FLOATING(O), 1 \
	) \
	/**/
	#
	# /* Generates code for all unary operators and integral types. */
	# define UNARY_ARRAY_OP(_, OT) \
	BOOST_PP_IF( \
	IS_VALID_UNARY_OP_AND_TYPE_COMBINATION OT, \
	UNARY_ARRAY_OP_CODE, BOOST_PP_TUPLE_EAT(2) \
	) OT \
	/**/
	# define UNARY_ARRAY_OP_CODE(O, T) \
	void BOOST_PP_LIST_CAT(BOOST_PP_TUPLE_TO_LIST(4, (array_, OP_NAME(O), _, TYPE_ABBREVIATION(T)))) \
	(const TYPE_NAME(T)* in, TYPE_NAME(TYPE_OF_UNARY_OP(O, T))* out, unsigned n) { \
	do { \
	out++ = OP_SYMBOL(O) in++; \
	} while (--n); \
	} \
	/**/

	BOOST_PP_LIST_FOR_EACH_PRODUCT(UNARY_ARRAY_OP, 2, (APPLICATIVE_UNARY_OPS, BUILTIN_TYPES))

	# /* Generates code for all binary operators and integral type pairs. */
	# define BINARY_ARRAY_OP(_, OLR) \
	BOOST_PP_IF( \
	IS_VALID_BINARY_OP_AND_TYPE_COMBINATION OLR, \
	BINARY_ARRAY_OP_CODE, BOOST_PP_TUPLE_EAT(3) \
	) OLR \
	/**/
	# define BINARY_ARRAY_OP_CODE(O, L, R) \
	void BOOST_PP_LIST_CAT( \
	BOOST_PP_TUPLE_TO_LIST( \
	6, (array_, OP_NAME(O), _, TYPE_ABBREVIATION(L), _, TYPE_ABBREVIATION(R)) \
	) \
	)(const TYPE_NAME(L)* lhs_in, const TYPE_NAME(R)* rhs_in, TYPE_NAME(TYPE_OF_BINARY_OP(O, L, R))* out, unsigned n) { \
	do { \
	out++ = lhs_in OP_SYMBOL(O) *rhs_in; \
	++lhs_in; \
	++rhs_in; \
	} while (--n); \
	} \
	/**/

	BOOST_PP_LIST_FOR_EACH_PRODUCT(BINARY_ARRAY_OP, 3, (APPLICATIVE_BINARY_OPS, BUILTIN_TYPES, BUILTIN_TYPES))