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/*
* UCW Library -- Universal Sorter: Common Declarations
*
* (c) 2007 Martin Mares <mj@ucw.cz>
*
* This software may be freely distributed and used according to the terms
* of the GNU Lesser General Public License.
*/
#ifndef _UCW_SORTER_COMMON_H
#define _UCW_SORTER_COMMON_H
#include <ucw/clists.h>
#ifdef CONFIG_UCW_CLEAN_ABI
#define asort_run ucw_asort_run
#define asort_start_threads ucw_asort_start_threads
#define asort_stop_threads ucw_asort_stop_threads
#define sbuck_drop ucw_sbuck_drop
#define sbuck_has_file ucw_sbuck_has_file
#define sbuck_have ucw_sbuck_have
#define sbuck_new ucw_sbuck_new
#define sbuck_read ucw_sbuck_read
#define sbuck_size ucw_sbuck_size
#define sbuck_swap_out ucw_sbuck_swap_out
#define sbuck_write ucw_sbuck_write
#define sorter_add_radix_bits ucw_sorter_add_radix_bits
#define sorter_alloc ucw_sorter_alloc
#define sorter_alloc_buf ucw_sorter_alloc_buf
#define sorter_bufsize ucw_sorter_bufsize
#define sorter_debug ucw_sorter_debug
#define sorter_fb_params ucw_sorter_fb_params
#define sorter_free_buf ucw_sorter_free_buf
#define sorter_max_multiway_bits ucw_sorter_max_multiway_bits
#define sorter_max_radix_bits ucw_sorter_max_radix_bits
#define sorter_min_multiway_bits ucw_sorter_min_multiway_bits
#define sorter_min_radix_bits ucw_sorter_min_radix_bits
#define sorter_prepare_buf ucw_sorter_prepare_buf
#define sorter_radix_threshold ucw_sorter_radix_threshold
#define sorter_run ucw_sorter_run
#define sorter_small_fb_params ucw_sorter_small_fb_params
#define sorter_small_input ucw_sorter_small_input
#define sorter_stream_bufsize ucw_sorter_stream_bufsize
#define sorter_thread_chunk ucw_sorter_thread_chunk
#define sorter_thread_threshold ucw_sorter_thread_threshold
#define sorter_threads ucw_sorter_threads
#define sorter_trace ucw_sorter_trace
#define sorter_trace_array ucw_sorter_trace_array
#endif
/* Configuration variables */
extern uint sorter_trace, sorter_trace_array, sorter_stream_bufsize;
extern uint sorter_debug, sorter_min_radix_bits, sorter_max_radix_bits, sorter_add_radix_bits;
extern uint sorter_min_multiway_bits, sorter_max_multiway_bits;
extern uint sorter_threads;
extern u64 sorter_bufsize, sorter_small_input;
extern u64 sorter_thread_threshold, sorter_thread_chunk, sorter_radix_threshold;
extern struct fb_params sorter_fb_params, sorter_small_fb_params;
#define SORT_TRACE(x...) do { if (sorter_trace) msg(L_DEBUG, x); } while(0)
#define SORT_XTRACE(level, x...) do { if (sorter_trace >= level) msg(L_DEBUG, x); } while(0)
enum sort_debug {
SORT_DEBUG_NO_PRESORT = 1,
SORT_DEBUG_NO_JOIN = 2,
SORT_DEBUG_KEEP_BUCKETS = 4,
SORT_DEBUG_NO_RADIX = 8,
SORT_DEBUG_NO_MULTIWAY = 16,
SORT_DEBUG_ASORT_NO_RADIX = 32,
SORT_DEBUG_ASORT_NO_THREADS = 64
};
struct sort_bucket;
struct sort_context {
struct fastbuf *in_fb;
struct fastbuf *out_fb;
uint hash_bits;
u64 in_size;
struct fb_params *fb_params;
struct mempool *pool;
clist bucket_list;
void *big_buf;
size_t big_buf_size;
int (*custom_presort)(struct fastbuf *dest, void *buf, size_t bufsize);
// Take as much as possible from the source bucket, sort it in memory and dump to destination bucket.
// Return 1 if there is more data available in the source bucket.
int (*internal_sort)(struct sort_context *ctx, struct sort_bucket *in, struct sort_bucket *out, struct sort_bucket *out_only);
// Estimate how much input data from `b' will fit in the internal sorting buffer.
u64 (*internal_estimate)(struct sort_context *ctx, struct sort_bucket *b);
// Two-way split/merge: merge up to 2 source buckets to up to 2 destination buckets.
// Bucket arrays are NULL-terminated.
void (*twoway_merge)(struct sort_context *ctx, struct sort_bucket **ins, struct sort_bucket **outs);
// Multi-way merge: merge an arbitrary number of source buckets to a single destination bucket.
void (*multiway_merge)(struct sort_context *ctx, struct sort_bucket **ins, struct sort_bucket *out);
// Radix split according to hash function
void (*radix_split)(struct sort_context *ctx, struct sort_bucket *in, struct sort_bucket **outs, uint bitpos, uint numbits);
// State variables of internal_sort
void *key_buf;
int more_keys;
// Timing
timestamp_t start_time;
uint last_pass_time;
uint total_int_time, total_pre_time, total_ext_time;
};
void sorter_run(struct sort_context *ctx);
/* Buffers */
void *sorter_alloc(struct sort_context *ctx, uint size);
void sorter_prepare_buf(struct sort_context *ctx);
void sorter_alloc_buf(struct sort_context *ctx);
void sorter_free_buf(struct sort_context *ctx);
/* Buckets */
struct sort_bucket {
cnode n;
struct sort_context *ctx;
uint flags;
struct fastbuf *fb;
byte *filename;
u64 size; // Size in bytes (not valid when writing)
uint runs; // Number of runs, 0 if not sorted
uint hash_bits; // Remaining bits of the hash function
byte *ident; // Identifier used in debug messages
};
enum sort_bucket_flags {
SBF_FINAL = 1, // This bucket corresponds to the final output file (always 1 run)
SBF_SOURCE = 2, // Contains the source file (always 0 runs)
SBF_CUSTOM_PRESORT = 4, // Contains source to read via custom presorter
SBF_OPEN_WRITE = 256, // We are currently writing to the fastbuf
SBF_OPEN_READ = 512, // We are reading from the fastbuf
SBF_DESTROYED = 1024, // Already done with, no further references allowed
SBF_SWAPPED_OUT = 2048, // Swapped out to a named file
};
struct sort_bucket *sbuck_new(struct sort_context *ctx);
void sbuck_drop(struct sort_bucket *b);
int sbuck_have(struct sort_bucket *b);
int sbuck_has_file(struct sort_bucket *b);
ucw_off_t sbuck_size(struct sort_bucket *b);
struct fastbuf *sbuck_read(struct sort_bucket *b);
struct fastbuf *sbuck_write(struct sort_bucket *b);
void sbuck_swap_out(struct sort_bucket *b);
/* Contexts and helper functions for the array sorter */
struct asort_context {
// Interface between generic code in array.c and functions generated by array.h
void *array; // Array to sort
void *buffer; // Auxiliary buffer (required when radix-sorting)
uint num_elts; // Number of elements in the array
uint elt_size; // Bytes per element
uint hash_bits; // Remaining bits of the hash function
uint radix_bits; // How many bits to process in a single radix-sort pass
void (*quicksort)(void *array_ptr, uint num_elts);
void (*quicksplit)(void *array_ptr, uint num_elts, int *leftp, int *rightp);
void (*radix_count)(void *src_ptr, uint num_elts, uint *cnt, uint shift);
void (*radix_split)(void *src_ptr, void *dest_ptr, uint num_elts, uint *ptrs, uint shift);
// Used internally by array.c
struct rs_work **rs_works;
struct work_queue *rs_work_queue;
struct eltpool *eltpool;
// Configured limits translated from bytes to elements
uint thread_threshold;
uint thread_chunk;
uint radix_threshold;
};
void asort_run(struct asort_context *ctx);
void asort_start_threads(uint run);
void asort_stop_threads(void);
#endif