girepository/cmph/bitbool.h - third_party/glib - Git at Google

 #ifndef _CMPH_BITBOOL_H__
 #define _CMPH_BITBOOL_H__
 #include "cmph_types.h"

 static const cmph_uint8 bitmask[] = { 1, 1 << 1,  1 << 2,  1 << 3, 1 << 4, 1 << 5, 1 << 6, 1 << 7 };

 static const cmph_uint32 bitmask32[] = { 1,       1 << 1,  1 << 2,  1 << 3,  1 << 4,  1 << 5,  1 << 6, 1 << 7,
                                          1 << 8,  1 << 9,  1 << 10, 1 << 11, 1 << 12, 1 << 13, 1 << 14, 1 << 15,
                                          1 << 16, 1 << 17, 1 << 18, 1 << 19, 1 << 20, 1 << 21, 1 << 22, 1 << 23,
                                          1 << 24, 1 << 25, 1 << 26, 1 << 27, 1 << 28, 1 << 29, 1 << 30, 1U << 31
 				       };

 static const cmph_uint8 valuemask[] = { 0xfc, 0xf3, 0xcf, 0x3f};


 /** \def GETBIT(array, i)
  *  \brief get the value of an 1-bit integer stored in an array.
  *  \param array to get 1-bit integer values from
  *  \param i is the index in array to get the 1-bit integer value from
  *
  * GETBIT(array, i) is a macro that gets the value of an 1-bit integer stored in array.
  */
 #define GETBIT(array, i) ((array[i >> 3] & bitmask[i & 0x00000007]) >> (i & 0x00000007))

 /** \def SETBIT(array, i)
  *  \brief set 1 to an 1-bit integer stored in an array.
  *  \param array to store 1-bit integer values
  *  \param i is the index in array to set the the bit to 1
  *
  * SETBIT(array, i) is a macro that sets 1 to an 1-bit integer stored in an array.
  */
 #define SETBIT(array, i) (array[i >> 3] |= bitmask[i & 0x00000007])

 /** \def UNSETBIT(array, i)
  *  \brief set 0 to an 1-bit integer stored in an array.
  *  \param array to store 1-bit integer values
  *  \param i is the index in array to set the the bit to 0
  *
  * UNSETBIT(array, i) is a macro that sets 0 to an 1-bit integer stored in an array.
  */
 #define UNSETBIT(array, i) (array[i >> 3] ^= ((bitmask[i & 0x00000007])))

 //#define GETBIT(array, i) (array[(i) / 8] & bitmask[(i) % 8])
 //#define SETBIT(array, i) (array[(i) / 8] |= bitmask[(i) % 8])
 //#define UNSETBIT(array, i) (array[(i) / 8] ^= ((bitmask[(i) % 8])))


 /** \def SETVALUE1(array, i, v)
  *  \brief set a value for a 2-bit integer stored in an array initialized with 1s.
  *  \param array to store 2-bit integer values
  *  \param i is the index in array to set the value v
  *  \param v is the value to be set
  *
  * SETVALUE1(array, i, v) is a macro that set a value for a 2-bit integer stored in an array.
  * The array should be initialized with all bits set to 1. For example:
  * memset(array, 0xff, arraySize);
  */
 #define SETVALUE1(array, i, v) (array[i >> 2] &= (cmph_uint8)((v << ((i & 0x00000003) << 1)) | valuemask[i & 0x00000003]))

 /** \def SETVALUE0(array, i, v)
  *  \brief set a value for a 2-bit integer stored in an array initialized with 0s.
  *  \param array to store 2-bit integer values
  *  \param i is the index in array to set the value v
  *  \param v is the value to be set
  *
  * SETVALUE0(array, i, v) is a macro that set a value for a 2-bit integer stored in an array.
  * The array should be initialized with all bits set to 0. For example:
  * memset(array, 0, arraySize);
  */
 #define SETVALUE0(array, i, v) (array[i >> 2] |= (cmph_uint8)(v << ((i & 0x00000003) << 1)))


 /** \def GETVALUE(array, i)
  *  \brief get a value for a 2-bit integer stored in an array.
  *  \param array to get 2-bit integer values from
  *  \param i is the index in array to get the value from
  *
  * GETVALUE(array, i) is a macro that get a value for a 2-bit integer stored in an array.
  */
 #define GETVALUE(array, i) ((cmph_uint8)((array[i >> 2] >> ((i & 0x00000003U) << 1U)) & 0x00000003U))


 /** \def SETBIT32(array, i)
  *  \brief set 1 to an 1-bit integer stored in an array of 32-bit words.
  *  \param array to store 1-bit integer values. The entries are 32-bit words.
  *  \param i is the index in array to set the the bit to 1
  *
  * SETBIT32(array, i) is a macro that sets 1 to an 1-bit integer stored in an array of 32-bit words.
  */
 #define SETBIT32(array, i) (array[i >> 5] |= bitmask32[i & 0x0000001f])

 /** \def GETBIT32(array, i)
  *  \brief get the value of an 1-bit integer stored in an array of 32-bit words.
  *  \param array to get 1-bit integer values from. The entries are 32-bit words.
  *  \param i is the index in array to get the 1-bit integer value from
  *
  * GETBIT32(array, i) is a macro that gets the value of an 1-bit integer stored in an array of 32-bit words.
  */
 #define GETBIT32(array, i) (array[i >> 5] & bitmask32[i & 0x0000001f])

 /** \def UNSETBIT32(array, i)
  *  \brief set 0 to an 1-bit integer stored in an array of 32-bit words.
  *  \param array to store 1-bit integer values. The entries ar 32-bit words
  *  \param i is the index in array to set the the bit to 0
  *
  * UNSETBIT32(array, i) is a macro that sets 0 to an 1-bit integer stored in an array of 32-bit words.
  */
 #define UNSETBIT32(array, i) (array[i >> 5] ^= ((bitmask32[i & 0x0000001f])))

 #define BITS_TABLE_SIZE(n, bits_length) ((n * bits_length + 31) >> 5)

 static inline void set_bits_value(cmph_uint32 * bits_table, cmph_uint32 index, cmph_uint32 bits_string,
                                   cmph_uint32 string_length, cmph_uint32 string_mask)
 {
 	register cmph_uint32 bit_idx = index * string_length;
 	register cmph_uint32 word_idx = bit_idx >> 5;
 	register cmph_uint32 shift1 = bit_idx & 0x0000001f;
 	register cmph_uint32 shift2 = 32 - shift1;

 	bits_table[word_idx] &= ~((string_mask) << shift1);
 	bits_table[word_idx] |= bits_string << shift1;

 	if(shift2 < string_length)
 	{
 		bits_table[word_idx+1] &= ~((string_mask) >> shift2);
 		bits_table[word_idx+1] |= bits_string >> shift2;
 	};
 };

 static inline cmph_uint32 get_bits_value(cmph_uint32 * bits_table,cmph_uint32 index, cmph_uint32 string_length, cmph_uint32 string_mask)
 {
 	register cmph_uint32 bit_idx = index * string_length;
 	register cmph_uint32 word_idx = bit_idx >> 5;
 	register cmph_uint32 shift1 = bit_idx & 0x0000001f;
 	register cmph_uint32 shift2 = 32-shift1;
 	register cmph_uint32 bits_string;

 	bits_string = (bits_table[word_idx] >> shift1) & string_mask;

 	if(shift2 < string_length)
 		bits_string |= (bits_table[word_idx+1] << shift2) & string_mask;

 	return bits_string;
 };

 static inline void set_bits_at_pos(cmph_uint32 * bits_table, cmph_uint32 pos, cmph_uint32 bits_string, cmph_uint32 string_length)
 {
 	register cmph_uint32 word_idx = pos >> 5;
 	register cmph_uint32 shift1 = pos & 0x0000001f;
 	register cmph_uint32 shift2 = 32-shift1;
 	register cmph_uint32 string_mask = (1U << string_length) - 1;

 	bits_table[word_idx] &= ~((string_mask) << shift1);
 	bits_table[word_idx] |= bits_string << shift1;
 	if(shift2 < string_length)
 	{
 		bits_table[word_idx+1] &= ~((string_mask) >> shift2);
 		bits_table[word_idx+1] |= bits_string >> shift2;
 	}
 };

 static inline cmph_uint32 get_bits_at_pos(cmph_uint32 * bits_table,cmph_uint32 pos,cmph_uint32 string_length)
 {
 	register cmph_uint32 word_idx = pos >> 5;
 	register cmph_uint32 shift1 = pos & 0x0000001f;
 	register cmph_uint32 shift2 = 32 - shift1;
 	register cmph_uint32 string_mask = (1U << string_length) - 1;
 	register cmph_uint32 bits_string;

 	bits_string = (bits_table[word_idx] >> shift1) & string_mask;

 	if(shift2 < string_length)
 		bits_string |= (bits_table[word_idx+1] << shift2) & string_mask;
 	return bits_string;
 }


 #endif
	#ifndef _CMPH_BITBOOL_H__
	#define _CMPH_BITBOOL_H__
	#include "cmph_types.h"

	static const cmph_uint8 bitmask[] = { 1, 1 << 1, 1 << 2, 1 << 3, 1 << 4, 1 << 5, 1 << 6, 1 << 7 };

	static const cmph_uint32 bitmask32[] = { 1, 1 << 1, 1 << 2, 1 << 3, 1 << 4, 1 << 5, 1 << 6, 1 << 7,
	1 << 8, 1 << 9, 1 << 10, 1 << 11, 1 << 12, 1 << 13, 1 << 14, 1 << 15,
	1 << 16, 1 << 17, 1 << 18, 1 << 19, 1 << 20, 1 << 21, 1 << 22, 1 << 23,
	1 << 24, 1 << 25, 1 << 26, 1 << 27, 1 << 28, 1 << 29, 1 << 30, 1U << 31
	};

	static const cmph_uint8 valuemask[] = { 0xfc, 0xf3, 0xcf, 0x3f};


	/** \def GETBIT(array, i)
	* \brief get the value of an 1-bit integer stored in an array.
	* \param array to get 1-bit integer values from
	* \param i is the index in array to get the 1-bit integer value from
	*
	* GETBIT(array, i) is a macro that gets the value of an 1-bit integer stored in array.
	*/
	#define GETBIT(array, i) ((array[i >> 3] & bitmask[i & 0x00000007]) >> (i & 0x00000007))

	/** \def SETBIT(array, i)
	* \brief set 1 to an 1-bit integer stored in an array.
	* \param array to store 1-bit integer values
	* \param i is the index in array to set the the bit to 1
	*
	* SETBIT(array, i) is a macro that sets 1 to an 1-bit integer stored in an array.
	*/
	#define SETBIT(array, i) (array[i >> 3] \|= bitmask[i & 0x00000007])

	/** \def UNSETBIT(array, i)
	* \brief set 0 to an 1-bit integer stored in an array.
	* \param array to store 1-bit integer values
	* \param i is the index in array to set the the bit to 0
	*
	* UNSETBIT(array, i) is a macro that sets 0 to an 1-bit integer stored in an array.
	*/
	#define UNSETBIT(array, i) (array[i >> 3] ^= ((bitmask[i & 0x00000007])))

	//#define GETBIT(array, i) (array[(i) / 8] & bitmask[(i) % 8])
	//#define SETBIT(array, i) (array[(i) / 8] \|= bitmask[(i) % 8])
	//#define UNSETBIT(array, i) (array[(i) / 8] ^= ((bitmask[(i) % 8])))


	/** \def SETVALUE1(array, i, v)
	* \brief set a value for a 2-bit integer stored in an array initialized with 1s.
	* \param array to store 2-bit integer values
	* \param i is the index in array to set the value v
	* \param v is the value to be set
	*
	* SETVALUE1(array, i, v) is a macro that set a value for a 2-bit integer stored in an array.
	* The array should be initialized with all bits set to 1. For example:
	* memset(array, 0xff, arraySize);
	*/
	#define SETVALUE1(array, i, v) (array[i >> 2] &= (cmph_uint8)((v << ((i & 0x00000003) << 1)) \| valuemask[i & 0x00000003]))

	/** \def SETVALUE0(array, i, v)
	* \brief set a value for a 2-bit integer stored in an array initialized with 0s.
	* \param array to store 2-bit integer values
	* \param i is the index in array to set the value v
	* \param v is the value to be set
	*
	* SETVALUE0(array, i, v) is a macro that set a value for a 2-bit integer stored in an array.
	* The array should be initialized with all bits set to 0. For example:
	* memset(array, 0, arraySize);
	*/
	#define SETVALUE0(array, i, v) (array[i >> 2] \|= (cmph_uint8)(v << ((i & 0x00000003) << 1)))


	/** \def GETVALUE(array, i)
	* \brief get a value for a 2-bit integer stored in an array.
	* \param array to get 2-bit integer values from
	* \param i is the index in array to get the value from
	*
	* GETVALUE(array, i) is a macro that get a value for a 2-bit integer stored in an array.
	*/
	#define GETVALUE(array, i) ((cmph_uint8)((array[i >> 2] >> ((i & 0x00000003U) << 1U)) & 0x00000003U))



	/** \def SETBIT32(array, i)
	* \brief set 1 to an 1-bit integer stored in an array of 32-bit words.
	* \param array to store 1-bit integer values. The entries are 32-bit words.
	* \param i is the index in array to set the the bit to 1
	*
	* SETBIT32(array, i) is a macro that sets 1 to an 1-bit integer stored in an array of 32-bit words.
	*/
	#define SETBIT32(array, i) (array[i >> 5] \|= bitmask32[i & 0x0000001f])

	/** \def GETBIT32(array, i)
	* \brief get the value of an 1-bit integer stored in an array of 32-bit words.
	* \param array to get 1-bit integer values from. The entries are 32-bit words.
	* \param i is the index in array to get the 1-bit integer value from
	*
	* GETBIT32(array, i) is a macro that gets the value of an 1-bit integer stored in an array of 32-bit words.
	*/
	#define GETBIT32(array, i) (array[i >> 5] & bitmask32[i & 0x0000001f])

	/** \def UNSETBIT32(array, i)
	* \brief set 0 to an 1-bit integer stored in an array of 32-bit words.
	* \param array to store 1-bit integer values. The entries ar 32-bit words
	* \param i is the index in array to set the the bit to 0
	*
	* UNSETBIT32(array, i) is a macro that sets 0 to an 1-bit integer stored in an array of 32-bit words.
	*/
	#define UNSETBIT32(array, i) (array[i >> 5] ^= ((bitmask32[i & 0x0000001f])))

	#define BITS_TABLE_SIZE(n, bits_length) ((n * bits_length + 31) >> 5)

	static inline void set_bits_value(cmph_uint32 * bits_table, cmph_uint32 index, cmph_uint32 bits_string,
	cmph_uint32 string_length, cmph_uint32 string_mask)
	{
	register cmph_uint32 bit_idx = index * string_length;
	register cmph_uint32 word_idx = bit_idx >> 5;
	register cmph_uint32 shift1 = bit_idx & 0x0000001f;
	register cmph_uint32 shift2 = 32 - shift1;

	bits_table[word_idx] &= ~((string_mask) << shift1);
	bits_table[word_idx] \|= bits_string << shift1;

	if(shift2 < string_length)
	{
	bits_table[word_idx+1] &= ~((string_mask) >> shift2);
	bits_table[word_idx+1] \|= bits_string >> shift2;
	};
	};

	static inline cmph_uint32 get_bits_value(cmph_uint32 * bits_table,cmph_uint32 index, cmph_uint32 string_length, cmph_uint32 string_mask)
	{
	register cmph_uint32 bit_idx = index * string_length;
	register cmph_uint32 word_idx = bit_idx >> 5;
	register cmph_uint32 shift1 = bit_idx & 0x0000001f;
	register cmph_uint32 shift2 = 32-shift1;
	register cmph_uint32 bits_string;

	bits_string = (bits_table[word_idx] >> shift1) & string_mask;

	if(shift2 < string_length)
	bits_string \|= (bits_table[word_idx+1] << shift2) & string_mask;

	return bits_string;
	};

	static inline void set_bits_at_pos(cmph_uint32 * bits_table, cmph_uint32 pos, cmph_uint32 bits_string, cmph_uint32 string_length)
	{
	register cmph_uint32 word_idx = pos >> 5;
	register cmph_uint32 shift1 = pos & 0x0000001f;
	register cmph_uint32 shift2 = 32-shift1;
	register cmph_uint32 string_mask = (1U << string_length) - 1;

	bits_table[word_idx] &= ~((string_mask) << shift1);
	bits_table[word_idx] \|= bits_string << shift1;
	if(shift2 < string_length)
	{
	bits_table[word_idx+1] &= ~((string_mask) >> shift2);
	bits_table[word_idx+1] \|= bits_string >> shift2;
	}
	};

	static inline cmph_uint32 get_bits_at_pos(cmph_uint32 * bits_table,cmph_uint32 pos,cmph_uint32 string_length)
	{
	register cmph_uint32 word_idx = pos >> 5;
	register cmph_uint32 shift1 = pos & 0x0000001f;
	register cmph_uint32 shift2 = 32 - shift1;
	register cmph_uint32 string_mask = (1U << string_length) - 1;
	register cmph_uint32 bits_string;

	bits_string = (bits_table[word_idx] >> shift1) & string_mask;

	if(shift2 < string_length)
	bits_string \|= (bits_table[word_idx+1] << shift2) & string_mask;
	return bits_string;
	}


	#endif