X-Git-Url: http://mj.ucw.cz/gitweb/?a=blobdiff_plain;f=lib%2Fsorter%2Fgovern.c;h=43b1668846fb975c1fb06fdfe415bb38df328586;hb=dcbe7f152cd2baecd878d8df740d3007357e5d26;hp=aece061c528b9093eadeb8dd057663195ffed07e;hpb=5ff0a5b047624c8f215da9cd6c7182d609fcbd01;p=libucw.git diff --git a/lib/sorter/govern.c b/lib/sorter/govern.c index aece061c..43b16688 100644 --- a/lib/sorter/govern.c +++ b/lib/sorter/govern.c @@ -10,81 +10,431 @@ #include "lib/lib.h" #include "lib/fastbuf.h" #include "lib/mempool.h" +#include "lib/stkstring.h" #include "lib/sorter/common.h" -struct sort_bucket * -sorter_new_bucket(struct sort_context *ctx) +#include +#include +#include + +#define F_BSIZE(b) stk_fsize(sbuck_size(b)) + +static void +sorter_start_timer(struct sort_context *ctx) { - return mp_alloc_zero(ctx->pool, sizeof(struct sort_bucket)); + init_timer(&ctx->start_time); } -struct fastbuf * -sorter_open_read(struct sort_bucket *b) +static void +sorter_stop_timer(struct sort_context *ctx, uns *account_to) { - /* FIXME: These functions should handle buckets with no fb and only name. */ - ASSERT(b->fb); - return b->fb; + ctx->last_pass_time = get_timer(&ctx->start_time); + *account_to += ctx->last_pass_time; } -struct fastbuf * -sorter_open_write(struct sort_bucket *b) +static uns +sorter_speed(struct sort_context *ctx, u64 size) { - if (!b->fb) - b->fb = bopen_tmp(sorter_stream_bufsize); - return b->fb; + if (!size) + return 0; + if (!ctx->last_pass_time) + return -1; + return (uns)((double)size / (1<<20) * 1000 / ctx->last_pass_time); } -void -sorter_close_read(struct sort_bucket *b) +static int +sorter_presort(struct sort_context *ctx, struct sort_bucket *in, struct sort_bucket *out, struct sort_bucket *out_only) { - if (!b) - return; - ASSERT(b->fb); - bclose(b->fb); - b->fb = NULL; + sorter_alloc_buf(ctx); + if (in->flags & SBF_CUSTOM_PRESORT) + { + /* + * The trick with automatic joining, which we use for the normal presorter, + * is not necessary with the custom presorter, because the custom presorter + * is never called in the middle of the sorted data. + */ + struct fastbuf *f = sbuck_write(out); + out->runs++; + return ctx->custom_presort(f, ctx->big_buf, ctx->big_buf_size); + } + return ctx->internal_sort(ctx, in, out, out_only); } -void -sorter_close_write(struct sort_bucket *b) +static struct sort_bucket * +sbuck_join_to(struct sort_bucket *b, sh_off_t *sizep) { - if (b->fb) + if (sorter_debug & SORT_DEBUG_NO_JOIN) + return NULL; + + struct sort_bucket *out = (struct sort_bucket *) b->n.prev; // Such bucket is guaranteed to exist + if (!(out->flags & SBF_FINAL)) + return NULL; + ASSERT(out->runs == 1); + *sizep = sbuck_size(out); + return out; +} + +static sh_off_t +sbuck_ins_or_join(struct sort_bucket *b, cnode *list_pos, struct sort_bucket *join, sh_off_t join_size) +{ + if (join) + { + if (b) + sbuck_drop(b); + ASSERT(join->runs == 2); + join->runs--; + return sbuck_size(join) - join_size; + } + else if (b) { - b->size = btell(b->fb); - brewind(b->fb); + clist_insert_after(&b->n, list_pos); + return sbuck_size(b); } - /* FIXME: Remove empty buckets from the list automatically? */ + else + return 0; } -void -sorter_run(struct sort_context *ctx) +static void +sorter_join(struct sort_bucket *b) { - ctx->pool = mp_new(4096); - ASSERT(!ctx->custom_presort); - ASSERT(!ctx->out_fb); - clist_init(&ctx->bucket_list); + struct sort_bucket *join = (struct sort_bucket *) b->n.prev; + ASSERT(join->flags & SBF_FINAL); + ASSERT(b->runs == 1); - /* FIXME: There should be a way how to detect size of the input file */ + if (!sbuck_has_file(join)) + { + // The final bucket doesn't have any file associated yet, so replace + // it with the new bucket. + SORT_XTRACE(3, "Replaced final bucket"); + b->flags |= SBF_FINAL; + sbuck_drop(join); + } + else + { + SORT_TRACE("Copying to output file: %s", F_BSIZE(b)); + struct fastbuf *src = sbuck_read(b); + struct fastbuf *dest = sbuck_write(join); + bbcopy(src, dest, ~0U); + sbuck_drop(b); + } +} - /* Trivial 2-way merge with no presorting (just a testing hack) */ - struct sort_bucket *bin = sorter_new_bucket(ctx); - bin->flags = SBF_SOURCE; - bin->fb = ctx->in_fb; - bin->ident = "src"; - struct sort_bucket *ins[3], *outs[3]; - ins[0] = bin; - ins[1] = NULL; +static void +sorter_twoway(struct sort_context *ctx, struct sort_bucket *b) +{ + struct sort_bucket *ins[3] = { NULL }, *outs[3] = { NULL }; + cnode *list_pos = b->n.prev; + sh_off_t join_size; + struct sort_bucket *join = sbuck_join_to(b, &join_size); + if (!(sorter_debug & SORT_DEBUG_NO_PRESORT) || (b->flags & SBF_CUSTOM_PRESORT)) + { + SORT_XTRACE(3, "%s", ((b->flags & SBF_CUSTOM_PRESORT) ? "Custom presorting" : "Presorting")); + sorter_start_timer(ctx); + ins[0] = sbuck_new(ctx); + if (!sorter_presort(ctx, b, ins[0], join ? : ins[0])) + { + sorter_stop_timer(ctx, &ctx->total_pre_time); + sh_off_t size = sbuck_ins_or_join(ins[0], list_pos, join, join_size); + SORT_XTRACE(((b->flags & SBF_SOURCE) ? 1 : 3), "Sorted in memory (%s, %dMB/s)", stk_fsize(size), sorter_speed(ctx, size)); + sbuck_drop(b); + return; + } + + ins[1] = sbuck_new(ctx); + int i = 1; + while (sorter_presort(ctx, b, ins[i], ins[i])) + i = 1-i; + sbuck_drop(b); + sorter_stop_timer(ctx, &ctx->total_pre_time); + SORT_TRACE("Presorting pass (%d+%d runs, %s+%s, %dMB/s)", + ins[0]->runs, ins[1]->runs, + F_BSIZE(ins[0]), F_BSIZE(ins[1]), + sorter_speed(ctx, sbuck_size(ins[0]) + sbuck_size(ins[1]))); + } + else + { + SORT_XTRACE(2, "Presorting disabled"); + ins[0] = b; + } + + SORT_XTRACE(3, "Main sorting"); + uns pass = 0; do { - outs[0] = sorter_new_bucket(ctx); - outs[1] = sorter_new_bucket(ctx); + ++pass; + sorter_start_timer(ctx); + if (ins[0]->runs <= 1 && ins[1]->runs <= 1 && join) + { + // This is guaranteed to produce a single run, so join if possible + outs[0] = join; + outs[1] = NULL; + ctx->twoway_merge(ctx, ins, outs); + sh_off_t size = sbuck_ins_or_join(NULL, NULL, join, join_size); + sorter_stop_timer(ctx, &ctx->total_ext_time); + SORT_TRACE("Mergesort pass %d (final run, %s, %dMB/s)", pass, stk_fsize(size), sorter_speed(ctx, size)); + sbuck_drop(ins[0]); + sbuck_drop(ins[1]); + return; + } + outs[0] = sbuck_new(ctx); + outs[1] = sbuck_new(ctx); outs[2] = NULL; - log(L_DEBUG, "Pass..."); ctx->twoway_merge(ctx, ins, outs); - log(L_DEBUG, "Done (%d+%d runs)", outs[0]->runs, outs[1]->runs); - sorter_close_write(outs[0]); - sorter_close_write(outs[1]); + sorter_stop_timer(ctx, &ctx->total_ext_time); + SORT_TRACE("Mergesort pass %d (%d+%d runs, %s+%s, %dMB/s)", pass, + outs[0]->runs, outs[1]->runs, + F_BSIZE(outs[0]), F_BSIZE(outs[1]), + sorter_speed(ctx, sbuck_size(outs[0]) + sbuck_size(outs[1]))); + sbuck_drop(ins[0]); + sbuck_drop(ins[1]); memcpy(ins, outs, 3*sizeof(struct sort_bucket *)); - } while (ins[1]->fb); + } while (sbuck_have(ins[1])); + + sbuck_drop(ins[1]); + clist_insert_after(&ins[0]->n, list_pos); +} + +static void +sorter_multiway(struct sort_context *ctx, struct sort_bucket *b) +{ + clist parts; + cnode *list_pos = b->n.prev; + sh_off_t join_size; + struct sort_bucket *join = sbuck_join_to(b, &join_size); + uns trace_level = (b->flags & SBF_SOURCE) ? 1 : 3; + + clist_init(&parts); + ASSERT(!(sorter_debug & SORT_DEBUG_NO_PRESORT)); + SORT_XTRACE(3, "%s", ((b->flags & SBF_CUSTOM_PRESORT) ? "Custom presorting" : "Presorting")); + uns cont; + uns part_cnt = 0; + u64 total_size = 0; + sorter_start_timer(ctx); + do + { + struct sort_bucket *p = sbuck_new(ctx); + cont = sorter_presort(ctx, b, p, (!part_cnt && join) ? join : p); + if (sbuck_have(p)) + { + part_cnt++; + clist_add_tail(&parts, &p->n); + total_size += sbuck_size(p); + sbuck_swap_out(p); + } + else + sbuck_drop(p); + } + while (cont); + sorter_stop_timer(ctx, &ctx->total_pre_time); + sorter_free_buf(ctx); + sbuck_drop(b); + + if (part_cnt <= 1) + { + sh_off_t size = sbuck_ins_or_join(clist_head(&parts), list_pos, (part_cnt ? NULL : join), join_size); + SORT_XTRACE(trace_level, "Sorted in memory (%s, %dMB/s)", stk_fsize(size), sorter_speed(ctx, size)); + return; + } + + SORT_TRACE("Multi-way presorting pass (%d parts, %s, %dMB/s)", part_cnt, stk_fsize(total_size), sorter_speed(ctx, total_size)); + + uns max_ways = 1 << sorter_max_multiway_bits; + struct sort_bucket *ways[max_ways+1]; + SORT_XTRACE(3, "Starting up to %d-way merge", max_ways); + for (;;) + { + uns n = 0; + struct sort_bucket *p; + while (n < max_ways && (p = clist_head(&parts))) + { + clist_remove(&p->n); + ways[n++] = p; + } + ways[n] = NULL; + ASSERT(n > 1); + + struct sort_bucket *out; + if (clist_empty(&parts) && join) + out = join; + else + out = sbuck_new(ctx); + sorter_start_timer(ctx); + ctx->multiway_merge(ctx, ways, out); + sorter_stop_timer(ctx, &ctx->total_ext_time); + + for (uns i=0; in); + SORT_TRACE("Multi-way merge pass (%d ways, %s, %dMB/s)", n, F_BSIZE(out), sorter_speed(ctx, sbuck_size(out))); + } + } +} + +static void +sorter_radix(struct sort_context *ctx, struct sort_bucket *b, uns bits) +{ + // Add more bits if requested and allowed. + bits = MIN(bits + sorter_add_radix_bits, sorter_max_radix_bits); + + uns nbuck = 1 << bits; + SORT_XTRACE(3, "Running radix split on %s with hash %d bits of %d (expecting %s buckets)", + F_BSIZE(b), bits, b->hash_bits, stk_fsize(sbuck_size(b) / nbuck)); + sorter_free_buf(ctx); + sorter_start_timer(ctx); + + struct sort_bucket **outs = alloca(nbuck * sizeof(struct sort_bucket *)); + for (uns i=nbuck; i--; ) + { + outs[i] = sbuck_new(ctx); + outs[i]->hash_bits = b->hash_bits - bits; + clist_insert_after(&outs[i]->n, &b->n); + } + + ctx->radix_split(ctx, b, outs, b->hash_bits - bits, bits); + + u64 min = ~(u64)0, max = 0, sum = 0; + for (uns i=0; i 4) + sbuck_swap_out(outs[i]); + } + + sorter_stop_timer(ctx, &ctx->total_ext_time); + SORT_TRACE("Radix split (%d buckets, %s min, %s max, %s avg, %dMB/s)", nbuck, + stk_fsize(min), stk_fsize(max), stk_fsize(sum / nbuck), sorter_speed(ctx, sum)); + sbuck_drop(b); +} + +static void +sorter_decide(struct sort_context *ctx, struct sort_bucket *b) +{ + // Drop empty buckets + if (!sbuck_have(b)) + { + SORT_XTRACE(4, "Dropping empty bucket"); + sbuck_drop(b); + return; + } + + // How many bits of bucket size we have to reduce before it fits in the RAM? + // (this is insanely large if the input size is unknown, but it serves our purpose) + u64 insize = sbuck_size(b); + u64 mem = ctx->internal_estimate(ctx, b) * 0.8; // Magical factor accounting for various non-uniformities + uns bits = 0; + while ((insize >> bits) > mem) + bits++; + + // Calculate the possibilities of radix splits + uns radix_bits; + if (!ctx->radix_split || + (b->flags & SBF_CUSTOM_PRESORT) || + (sorter_debug & SORT_DEBUG_NO_RADIX)) + radix_bits = 0; + else + { + radix_bits = MIN(bits, b->hash_bits); + radix_bits = MIN(radix_bits, sorter_max_radix_bits); + if (radix_bits < sorter_min_radix_bits) + radix_bits = 0; + } + + // The same for multi-way merges + uns multiway_bits; + if (!ctx->multiway_merge || + (sorter_debug & SORT_DEBUG_NO_MULTIWAY) || + (sorter_debug & SORT_DEBUG_NO_PRESORT)) + multiway_bits = 0; + else + { + multiway_bits = MIN(bits, sorter_max_multiway_bits); + if (multiway_bits < sorter_min_multiway_bits) + multiway_bits = 0; + } + + SORT_XTRACE(3, "Decisions: size=%s max=%s runs=%d bits=%d hash=%d -> radix=%d multi=%d", + stk_fsize(insize), stk_fsize(mem), b->runs, bits, b->hash_bits, + radix_bits, multiway_bits); + + // If the input already consists of a single run, just join it + if (b->runs) + return sorter_join(b); + + // If everything fits in memory, the 2-way strategy will sort it in memory + if (!bits) + return sorter_twoway(ctx, b); + + // If we can reduce everything in one pass, do so and prefer radix splits + if (radix_bits == bits) + return sorter_radix(ctx, b, radix_bits); + if (multiway_bits == bits) + return sorter_multiway(ctx, b); + + // Otherwise, reduce as much as possible and again prefer radix splits + if (radix_bits) + return sorter_radix(ctx, b, radix_bits); + if (multiway_bits) + return sorter_multiway(ctx, b); + + // Fall back to 2-way strategy if nothing else applies + return sorter_twoway(ctx, b); +} + +void +sorter_run(struct sort_context *ctx) +{ + ctx->pool = mp_new(4096); + clist_init(&ctx->bucket_list); + sorter_prepare_buf(ctx); + asort_start_threads(0); + + // Create bucket containing the source + struct sort_bucket *bin = sbuck_new(ctx); + bin->flags = SBF_SOURCE | SBF_OPEN_READ; + if (ctx->custom_presort) + bin->flags |= SBF_CUSTOM_PRESORT; + else + bin->fb = ctx->in_fb; + bin->ident = "in"; + bin->size = ctx->in_size; + bin->hash_bits = ctx->hash_bits; + clist_add_tail(&ctx->bucket_list, &bin->n); + SORT_XTRACE(2, "Input size: %s, %d hash bits", F_BSIZE(bin), bin->hash_bits); + ctx->fb_params = (bin->size < sorter_small_input) ? &sorter_small_fb_params : &sorter_fb_params; + + // Create bucket for the output + struct sort_bucket *bout = sbuck_new(ctx); + bout->flags = SBF_FINAL; + if (bout->fb = ctx->out_fb) + bout->flags |= SBF_OPEN_WRITE; + bout->ident = "out"; + bout->runs = 1; + clist_add_head(&ctx->bucket_list, &bout->n); + + // Repeatedly sort buckets + struct sort_bucket *b; + while (bout = clist_head(&ctx->bucket_list), b = clist_next(&ctx->bucket_list, &bout->n)) + sorter_decide(ctx, b); - ctx->out_fb = sorter_open_read(ins[0]); + asort_stop_threads(); + sorter_free_buf(ctx); + sbuck_write(bout); // Force empty bucket to a file + SORT_XTRACE(2, "Final size: %s", F_BSIZE(bout)); + SORT_XTRACE(2, "Final timings: %.3fs external sorting, %.3fs presorting, %.3fs internal sorting", + ctx->total_ext_time/1000., ctx->total_pre_time/1000., ctx->total_int_time/1000.); + ctx->out_fb = sbuck_read(bout); + mp_delete(ctx->pool); }