[pspp] / src / math / sort.c

/* PSPP - a program for statistical analysis.
   Copyright (C) 1997-9, 2000, 2006, 2009, 2011, 2012 Free Software Foundation, Inc.

   This program is free software: you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation, either version 3 of the License, or
   (at your option) any later version.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program.  If not, see <http://www.gnu.org/licenses/>. */

#include <config.h>

#include "math/sort.h"

#include <stdio.h>

#include "data/case.h"
#include "data/casereader.h"
#include "data/casewriter-provider.h"
#include "data/casewriter.h"
#include "data/settings.h"
#include "data/subcase.h"
#include "libpspp/array.h"
#include "libpspp/assertion.h"
#include "math/merge.h"

#include "gl/xalloc.h"

/* These should only be changed for testing purposes. */
int min_buffers = 64;
int max_buffers = INT_MAX;

struct sort_writer
  {
    struct caseproto *proto;
    struct subcase ordering;
    struct merge *merge;
    struct pqueue *pqueue;

    struct casewriter *run;
    casenumber run_id;
    struct ccase *run_end;
  };

static struct casewriter_class sort_casewriter_class;

static struct pqueue *pqueue_create (const struct subcase *,
                                     const struct caseproto *);
static void pqueue_destroy (struct pqueue *);
static bool pqueue_is_full (const struct pqueue *);
static bool pqueue_is_empty (const struct pqueue *);
static void pqueue_push (struct pqueue *, struct ccase *, casenumber);
static struct ccase *pqueue_pop (struct pqueue *, casenumber *);

static void output_record (struct sort_writer *);

/* Creates a casewriter that sorts the cases written to it.  Once all the cases
   have been written, use casewriter_make_reader() to obtain the sorted
   results. */
struct casewriter *
sort_create_writer (const struct subcase *ordering,
                    const struct caseproto *proto)
{
  struct sort_writer *sort;

  sort = xmalloc (sizeof *sort);
  sort->proto = caseproto_ref (proto);
  subcase_clone (&sort->ordering, ordering);
  sort->merge = merge_create (ordering, proto);
  sort->pqueue = pqueue_create (ordering, proto);
  sort->run = NULL;
  sort->run_id = 0;
  sort->run_end = NULL;

  return casewriter_create (proto, &sort_casewriter_class, sort);
}

static void
sort_casewriter_write (struct casewriter *writer UNUSED, void *sort_,
                       struct ccase *c)
{
  struct sort_writer *sort = sort_;
  bool next_run;

  if (pqueue_is_full (sort->pqueue))
    output_record (sort);

  next_run = (sort->run_end == NULL
              || subcase_compare_3way (&sort->ordering, c,
                                       &sort->ordering, sort->run_end) < 0);
  pqueue_push (sort->pqueue, c, sort->run_id + (next_run ? 1 : 0));
}

static void
sort_casewriter_destroy (struct casewriter *writer UNUSED, void *sort_)
{
  struct sort_writer *sort = sort_;

  subcase_destroy (&sort->ordering);
  merge_destroy (sort->merge);
  pqueue_destroy (sort->pqueue);
  casewriter_destroy (sort->run);
  case_unref (sort->run_end);
  caseproto_unref (sort->proto);
  free (sort);
}

static struct casereader *
sort_casewriter_convert_to_reader (struct casewriter *writer, void *sort_)
{
  struct sort_writer *sort = sort_;
  struct casereader *output;

  if (sort->run == NULL && sort->run_id == 0)
    {
      /* In-core sort. */
      sort->run = mem_writer_create (sort->proto);
      sort->run_id = 1;
    }
  while (!pqueue_is_empty (sort->pqueue))
    output_record (sort);

  merge_append (sort->merge, casewriter_make_reader (sort->run));
  sort->run = NULL;

  output = merge_make_reader (sort->merge);
  sort_casewriter_destroy (writer, sort);
  return output;
}

static void
output_record (struct sort_writer *sort)
{
  struct ccase *min_case;
  casenumber min_run_id;

  min_case = pqueue_pop (sort->pqueue, &min_run_id);
#if 0
  printf ("\toutput: %f to run %d\n", case_num_idx (min_case, 0), min_run_id);
#endif

  if (sort->run_id != min_run_id && sort->run != NULL)
    {
      merge_append (sort->merge, casewriter_make_reader (sort->run));
      sort->run = NULL;
    }
  if (sort->run == NULL)
    {
      sort->run = tmpfile_writer_create (sort->proto);
      sort->run_id = min_run_id;
    }

  case_unref (sort->run_end);
  sort->run_end = case_ref (min_case);
  casewriter_write (sort->run, min_case);
}

static struct casewriter_class sort_casewriter_class =
  {
    sort_casewriter_write,
    sort_casewriter_destroy,
    sort_casewriter_convert_to_reader,
  };
\f
/* Reads all the cases from INPUT.  Sorts the cases according to
   ORDERING.  Returns the sorted cases in a new casereader.
   INPUT is destroyed by this function.
 */
struct casereader *
sort_execute (struct casereader *input, const struct subcase *ordering)
{
  struct casewriter *output =
    sort_create_writer (ordering, casereader_get_proto (input));
  casereader_transfer (input, output);
  return casewriter_make_reader (output);
}

/* Reads all the cases from INPUT.  Sorts the cases in ascending
   order according to VARIABLE.  Returns the sorted cases in a
   new casereader.  INPUT is destroyed by this function. */
struct casereader *
sort_execute_1var (struct casereader *input, const struct variable *var)
{
  struct subcase sc;
  struct casereader *reader;

  subcase_init_var (&sc, var, SC_ASCEND);
  reader = sort_execute (input, &sc);
  subcase_destroy (&sc);
  return reader;
}
\f
struct pqueue
  {
    struct subcase ordering;
    struct pqueue_record *records;
    size_t n_records;           /* Current number of records. */
    size_t allocated_records;   /* Space currently allocated for records. */
    size_t max_records;         /* Max space we are willing to allocate. */
    casenumber idx;
  };

struct pqueue_record
  {
    casenumber id;
    struct ccase *c;
    casenumber idx;
  };

static int compare_pqueue_records_minheap (const void *a, const void *b,
                                           const void *pq_);

static struct pqueue *
pqueue_create (const struct subcase *ordering, const struct caseproto *proto)
{
  struct pqueue *pq;

  pq = xmalloc (sizeof *pq);
  subcase_clone (&pq->ordering, ordering);
  pq->max_records = settings_get_workspace_cases (proto);
  if (pq->max_records > max_buffers)
    pq->max_records = max_buffers;
  else if (pq->max_records < min_buffers)
    pq->max_records = min_buffers;
  pq->n_records = 0;
  pq->allocated_records = 0;
  pq->records = NULL;
  pq->idx = 0;

  return pq;
}

static void
pqueue_destroy (struct pqueue *pq)
{
  if (pq != NULL)
    {
      while (!pqueue_is_empty (pq))
        {
          casenumber id;
          struct ccase *c = pqueue_pop (pq, &id);
          case_unref (c);
        }
      subcase_destroy (&pq->ordering);
      free (pq->records);
      free (pq);
    }
}

static bool
pqueue_is_full (const struct pqueue *pq)
{
  return pq->n_records >= pq->max_records;
}

static bool
pqueue_is_empty (const struct pqueue *pq)
{
  return pq->n_records == 0;
}

static void
pqueue_push (struct pqueue *pq, struct ccase *c, casenumber id)
{
  struct pqueue_record *r;

  assert (!pqueue_is_full (pq));

  if (pq->n_records >= pq->allocated_records)
    {
      pq->allocated_records = pq->allocated_records * 2;
      if (pq->allocated_records < 16)
        pq->allocated_records = 16;
      else if (pq->allocated_records > pq->max_records)
        pq->allocated_records = pq->max_records;
      pq->records = xrealloc (pq->records,
                              pq->allocated_records * sizeof *pq->records);
    }

  r = &pq->records[pq->n_records++];
  r->id = id;
  r->c = c;
  r->idx = pq->idx++;

  push_heap (pq->records, pq->n_records, sizeof *pq->records,
             compare_pqueue_records_minheap, pq);
}

static struct ccase *
pqueue_pop (struct pqueue *pq, casenumber *id)
{
  struct pqueue_record *r;

  assert (!pqueue_is_empty (pq));

  pop_heap (pq->records, pq->n_records--, sizeof *pq->records,
            compare_pqueue_records_minheap, pq);

  r = &pq->records[pq->n_records];
  *id = r->id;
  return r->c;
}

/* Compares record-run tuples A and B on id, then on case data,
   then on insertion order, in descending order. */
static int
compare_pqueue_records_minheap (const void *a_, const void *b_,
                                const void *pq_)
{
  const struct pqueue_record *a = a_;
  const struct pqueue_record *b = b_;
  const struct pqueue *pq = pq_;
  int result = a->id < b->id ? -1 : a->id > b->id;
  if (result == 0)
    result = subcase_compare_3way (&pq->ordering, a->c, &pq->ordering, b->c);
  if (result == 0)
    result = a->idx < b->idx ? -1 : a->idx > b->idx;
  return -result;
}