#ifndef __CMPH_COMPRESSED_SEQ_H__ #define __CMPH_COMPRESSED_SEQ_H__ #include"select.h" struct _compressed_seq_t { cmph_uint32 n; // number of values stored in store_table // The length in bits of each value is decomposed into two compnents: the lg(n) MSBs are stored in rank_select data structure // the remaining LSBs are stored in a table of n cells, each one of rem_r bits. cmph_uint32 rem_r; cmph_uint32 total_length; // total length in bits of stored_table select_t sel; cmph_uint32 * length_rems; cmph_uint32 * store_table; }; typedef struct _compressed_seq_t compressed_seq_t; /** \fn void compressed_seq_init(compressed_seq_t * cs); * \brief Initialize a compressed sequence structure. * \param cs points to the compressed sequence structure to be initialized */ void compressed_seq_init(compressed_seq_t * cs); /** \fn void compressed_seq_destroy(compressed_seq_t * cs); * \brief Destroy a compressed sequence given as input. * \param cs points to the compressed sequence structure to be destroyed */ void compressed_seq_destroy(compressed_seq_t * cs); /** \fn void compressed_seq_generate(compressed_seq_t * cs, cmph_uint32 * vals_table, cmph_uint32 n); * \brief Generate a compressed sequence from an input array with n values. * \param cs points to the compressed sequence structure * \param vals_table poiter to the array given as input * \param n number of values in @see vals_table */ void compressed_seq_generate(compressed_seq_t * cs, cmph_uint32 * vals_table, cmph_uint32 n); /** \fn cmph_int32 compressed_seq_query(compressed_seq_t * cs, cmph_uint32 idx); * \brief Returns the value stored at index @see idx of the compressed sequence structure. * \param cs points to the compressed sequence structure * \param idx index to retrieve the value from * \return the value stored at index @see idx of the compressed sequence structure */ cmph_int32 compressed_seq_query(compressed_seq_t * cs, cmph_uint32 idx); /** \fn cmph_uint32 compressed_seq_get_space_usage(compressed_seq_t * cs); * \brief Returns amount of space (in bits) to store the compressed sequence. * \param cs points to the compressed sequence structure * \return the amount of space (in bits) to store @see cs */ cmph_uint32 compressed_seq_get_space_usage(compressed_seq_t * cs); void compressed_seq_dump(compressed_seq_t * cs, char ** buf, cmph_uint32 * buflen); void compressed_seq_load(compressed_seq_t * cs, const char * buf, cmph_uint32 buflen); /** \fn void compressed_seq_pack(compressed_seq_t *cs, void *cs_packed); * \brief Support the ability to pack a compressed sequence structure into a preallocated contiguous memory space pointed by cs_packed. * \param cs points to the compressed sequence structure * \param cs_packed pointer to the contiguous memory area used to store the compressed sequence structure. The size of cs_packed must be at least @see compressed_seq_packed_size */ void compressed_seq_pack(compressed_seq_t *cs, void *cs_packed); /** \fn cmph_uint32 compressed_seq_packed_size(compressed_seq_t *cs); * \brief Return the amount of space needed to pack a compressed sequence structure. * \return the size of the packed compressed sequence structure or zero for failures */ cmph_uint32 compressed_seq_packed_size(compressed_seq_t *cs); /** \fn cmph_int32 compressed_seq_query_packed(void * cs_packed, cmph_uint32 idx); * \brief Returns the value stored at index @see idx of the packed compressed sequence structure. * \param cs_packed is a pointer to a contiguous memory area * \param idx is the index to retrieve the value from * \return the value stored at index @see idx of the packed compressed sequence structure */ cmph_int32 compressed_seq_query_packed(void * cs_packed, cmph_uint32 idx); #endif