1 /* PSPP - a program for statistical analysis.
2 Copyright (C) 2007 Free Software Foundation, Inc.
4 This program is free software: you can redistribute it and/or modify
5 it under the terms of the GNU General Public License as published by
6 the Free Software Foundation, either version 3 of the License, or
7 (at your option) any later version.
9 This program is distributed in the hope that it will be useful,
10 but WITHOUT ANY WARRANTY; without even the implied warranty of
11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 GNU General Public License for more details.
14 You should have received a copy of the GNU General Public License
15 along with this program. If not, see <http://www.gnu.org/licenses/>. */
19 #include <data/datasheet.h>
24 #include <data/casereader-provider.h>
25 #include <data/casereader.h>
26 #include <data/casewriter.h>
27 #include <data/lazy-casereader.h>
28 #include <data/sparse-cases.h>
29 #include <libpspp/array.h>
30 #include <libpspp/assertion.h>
31 #include <libpspp/range-map.h>
32 #include <libpspp/range-set.h>
33 #include <libpspp/taint.h>
34 #include <libpspp/tower.h>
40 static struct axis *axis_create (void);
41 static struct axis *axis_clone (const struct axis *);
42 static void axis_destroy (struct axis *);
44 static void axis_hash (const struct axis *, struct md4_ctx *);
46 static bool axis_allocate (struct axis *, unsigned long int request,
47 unsigned long int *start,
48 unsigned long int *width);
49 static void axis_make_available (struct axis *,
50 unsigned long int start,
51 unsigned long int width);
52 static unsigned long int axis_extend (struct axis *, unsigned long int width);
54 static unsigned long int axis_map (const struct axis *, unsigned long log_pos);
56 static unsigned long axis_get_size (const struct axis *);
57 static void axis_insert (struct axis *,
58 unsigned long int log_start,
59 unsigned long int phy_start,
60 unsigned long int cnt);
61 static void axis_remove (struct axis *,
62 unsigned long int start, unsigned long int cnt);
63 static void axis_move (struct axis *,
64 unsigned long int old_start,
65 unsigned long int new_start,
66 unsigned long int cnt);
68 static struct source *source_create_empty (size_t column_cnt);
69 static struct source *source_create_casereader (struct casereader *);
70 static struct source *source_clone (const struct source *);
71 static void source_destroy (struct source *);
73 static casenumber source_get_backing_row_cnt (const struct source *);
74 static size_t source_get_column_cnt (const struct source *);
76 static bool source_read (const struct source *,
77 casenumber row, size_t column,
78 union value[], size_t value_cnt);
79 static bool source_write (struct source *,
80 casenumber row, size_t column,
81 const union value[], size_t value_cnt);
82 static bool source_write_columns (struct source *, size_t start_column,
83 const union value[], size_t value_cnt);
84 static bool source_has_backing (const struct source *);
85 static void source_increase_use (struct source *, size_t delta);
86 static void source_decrease_use (struct source *, size_t delta);
87 static bool source_in_use (const struct source *);
89 /* A datasheet is internally composed from a set of data files,
90 called "sources". The sources that make up a datasheet must
91 have the same number of rows (cases), but their numbers of
92 columns (variables) may vary.
94 A datasheet's external view is produced by mapping (permuting
95 and selecting) its internal data. Thus, we can rearrange or
96 delete rows or columns simply by modifying the mapping. We
97 add rows by adding rows to each source and to the row mapping.
98 We add columns by adding a new source, then adding that source
99 to the column mapping.
101 Each source in a datasheet can be a casereader or a
102 sparse_cases. Casereaders are read-only, so when sources made
103 from casereaders need to be modified, it is done "virtually"
104 through being overlaid by a sparse_cases. */
109 /* Mappings from logical to physical columns/rows. */
110 struct axis *columns;
113 /* Mapping from physical columns to "source_info"s. */
114 struct range_map sources;
116 /* Minimum number of columns to put in a new source when we
117 need new columns and none are free. We double it whenever
118 we add a new source to keep the number of file descriptors
119 needed by the datasheet to a minimum, reducing the
120 likelihood of running out. */
121 unsigned column_min_alloc;
123 /* Indicates corrupted data in the datasheet. */
127 /* Maps from a range of physical columns to a source. */
130 struct range_map_node column_range;
131 struct source *source;
134 /* Is this operation a read or a write? */
141 static void free_source_info (struct datasheet *, struct source_info *);
142 static struct source_info *source_info_from_range_map (
143 struct range_map_node *);
144 static bool rw_case (struct datasheet *ds, enum rw_op op,
145 casenumber lrow, size_t start_column, size_t column_cnt,
148 /* Creates and returns a new datasheet.
150 If READER is nonnull, then the datasheet initially contains
151 the contents of READER. */
153 datasheet_create (struct casereader *reader)
155 /* Create datasheet. */
156 struct datasheet *ds = xmalloc (sizeof *ds);
157 ds->columns = axis_create ();
158 ds->rows = axis_create ();
159 range_map_init (&ds->sources);
160 ds->column_min_alloc = 1;
161 ds->taint = taint_create ();
168 struct source_info *si;
170 si = xmalloc (sizeof *si);
171 si->source = source_create_casereader (reader);
172 column_cnt = source_get_column_cnt (si->source);
173 row_cnt = source_get_backing_row_cnt (si->source);
174 source_increase_use (si->source, column_cnt);
176 if ( column_cnt > 0 )
178 unsigned long int column_start;
179 column_start = axis_extend (ds->columns, column_cnt);
180 axis_insert (ds->columns, 0, column_start, column_cnt);
181 range_map_insert (&ds->sources, column_start, column_cnt,
187 unsigned long int row_start;
188 row_start = axis_extend (ds->rows, row_cnt);
189 axis_insert (ds->rows, 0, row_start, row_cnt);
196 /* Destroys datasheet DS. */
198 datasheet_destroy (struct datasheet *ds)
203 axis_destroy (ds->columns);
204 axis_destroy (ds->rows);
205 while (!range_map_is_empty (&ds->sources))
207 struct range_map_node *r = range_map_first (&ds->sources);
208 struct source_info *si = source_info_from_range_map (r);
209 free_source_info (ds, si);
211 taint_destroy (ds->taint);
215 /* Moves datasheet DS to a new location in memory, and returns
216 the new location. Afterward, the datasheet must not be
217 accessed at its former location.
219 This function is useful for ensuring that all references to a
220 datasheet have been dropped, especially in conjunction with
221 tools like Valgrind. */
223 datasheet_rename (struct datasheet *ds)
225 struct datasheet *new = xmemdup (ds, sizeof *ds);
230 /* Returns true if datasheet DS is tainted.
231 A datasheet is tainted by an I/O error or by taint
232 propagation to the datasheet. */
234 datasheet_error (const struct datasheet *ds)
236 return taint_is_tainted (ds->taint);
239 /* Marks datasheet DS tainted. */
241 datasheet_force_error (struct datasheet *ds)
243 taint_set_taint (ds->taint);
246 /* Returns datasheet DS's taint object. */
248 datasheet_get_taint (const struct datasheet *ds)
253 /* Returns the number of rows in DS. */
255 datasheet_get_row_cnt (const struct datasheet *ds)
257 return axis_get_size (ds->rows);
260 /* Returns the number of columns in DS. */
262 datasheet_get_column_cnt (const struct datasheet *ds)
264 return axis_get_size (ds->columns);
267 /* Inserts CNT columns into datasheet DS just before column
268 BEFORE. Initializes the contents of each row in the inserted
269 columns to the CNT values in INIT_VALUES.
271 Returns true if successful, false on failure. In case of
272 failure, the datasheet is unchanged. */
274 datasheet_insert_columns (struct datasheet *ds,
275 const union value init_values[], size_t cnt,
281 unsigned long first_phy; /* First allocated physical column. */
282 unsigned long phy_cnt; /* Number of allocated physical columns. */
284 /* Allocate physical columns from the pool of available
286 if (!axis_allocate (ds->columns, cnt, &first_phy, &phy_cnt))
288 /* No columns were available. Create a new source and
289 extend the axis to make some new ones available. */
290 struct source_info *si;
292 phy_cnt = MAX (cnt, ds->column_min_alloc);
293 first_phy = axis_extend (ds->columns, phy_cnt);
294 ds->column_min_alloc = MIN (65536, ds->column_min_alloc * 2);
296 si = xmalloc (sizeof *si);
297 si->source = source_create_empty (phy_cnt);
298 range_map_insert (&ds->sources, first_phy, phy_cnt,
302 axis_make_available (ds->columns, first_phy + cnt,
308 /* Initialize the columns and insert them into the columns
312 struct range_map_node *r; /* Range map holding FIRST_PHY column. */
313 struct source_info *s; /* Source containing FIRST_PHY column. */
314 size_t source_avail; /* Number of phys columns available. */
315 size_t source_cnt; /* Number of phys columns to use. */
317 /* Figure out how many columns we can and want to take
318 starting at FIRST_PHY, and then insert them into the
320 r = range_map_lookup (&ds->sources, first_phy);
321 s = source_info_from_range_map (r);
322 source_avail = range_map_node_get_end (r) - first_phy;
323 source_cnt = MIN (phy_cnt, source_avail);
324 axis_insert (ds->columns, before, first_phy, source_cnt);
326 /* Initialize the data for those columns in the
328 if (!source_write_columns (s->source,
329 first_phy - range_map_node_get_start (r),
330 init_values, source_cnt))
332 datasheet_delete_columns (ds, before - added,
334 taint_set_taint (ds->taint);
337 source_increase_use (s->source, source_cnt);
340 phy_cnt -= source_cnt;
341 first_phy += source_cnt;
342 init_values += source_cnt;
344 before += source_cnt;
351 /* Deletes the CNT columns in DS starting from column START. */
353 datasheet_delete_columns (struct datasheet *ds, size_t start, size_t cnt)
357 assert ( start + cnt <= axis_get_size (ds->columns) );
359 /* Free up columns for reuse. */
360 for (lcol = start; lcol < start + cnt; lcol++)
362 size_t pcol = axis_map (ds->columns, lcol);
363 struct range_map_node *r = range_map_lookup (&ds->sources, pcol);
364 struct source_info *si = source_info_from_range_map (r);
366 source_decrease_use (si->source, 1);
367 if (source_has_backing (si->source))
369 if (!source_in_use (si->source))
370 free_source_info (ds, si);
373 axis_make_available (ds->columns, pcol, 1);
376 /* Remove columns from logical-to-physical mapping. */
377 axis_remove (ds->columns, start, cnt);
380 /* Moves the CNT columns in DS starting at position OLD_START so
381 that they then start at position NEW_START. Equivalent to
382 deleting the column rows, then inserting them at what becomes
383 position NEW_START after the deletion.*/
385 datasheet_move_columns (struct datasheet *ds,
386 size_t old_start, size_t new_start,
389 axis_move (ds->columns, old_start, new_start, cnt);
392 /* Retrieves the contents of the given ROW in datasheet DS into
393 newly created case C. Returns true if successful, false on
396 datasheet_get_row (const struct datasheet *ds, casenumber row, struct ccase *c)
398 size_t column_cnt = datasheet_get_column_cnt (ds);
399 case_create (c, column_cnt);
400 if (rw_case ((struct datasheet *) ds, OP_READ,
401 row, 0, column_cnt, case_data_all_rw (c)))
410 /* Stores the contents of case C, which is destroyed, into the
411 given ROW in DS. Returns true on success, false on I/O error.
412 On failure, the given ROW might be partially modified or
415 datasheet_put_row (struct datasheet *ds, casenumber row, struct ccase *c)
417 size_t column_cnt = datasheet_get_column_cnt (ds);
418 bool ok = rw_case (ds, OP_WRITE, row, 0, column_cnt,
419 (union value *) case_data_all (c));
424 /* Stores the values of the WIDTH columns in DS in the given ROW
425 starting at COLUMN in DS into VALUES. Returns true if
426 successful, false on I/O error. */
428 datasheet_get_value (const struct datasheet *ds, casenumber row, size_t column,
429 union value *value, int width)
432 return rw_case ((struct datasheet *) ds,
433 OP_READ, row, column, value_cnt_from_width (width), value);
436 /* Stores the WIDTH given VALUES into the given ROW in DS
437 starting at COLUMN. Returns true if successful, false on I/O
438 error. On failure, the given ROW might be partially modified
441 datasheet_put_value (struct datasheet *ds, casenumber row, size_t column,
442 const union value *value, int width)
444 return rw_case (ds, OP_WRITE, row, column, value_cnt_from_width (width),
445 (union value *) value);
448 /* Inserts the CNT cases at C, which are destroyed, into
449 datasheet DS just before row BEFORE. Returns true if
450 successful, false on I/O error. On failure, datasheet DS is
453 datasheet_insert_rows (struct datasheet *ds,
454 casenumber before, struct ccase c[],
457 casenumber added = 0;
460 unsigned long first_phy;
461 unsigned long phy_cnt;
464 /* Allocate physical rows from the pool of available
466 if (!axis_allocate (ds->rows, cnt, &first_phy, &phy_cnt))
468 /* No rows were available. Extend the row axis to make
469 some new ones available. */
471 first_phy = axis_extend (ds->rows, cnt);
474 /* Insert the new rows into the row mapping. */
475 axis_insert (ds->rows, before, first_phy, phy_cnt);
477 /* Initialize the new rows. */
478 for (i = 0; i < phy_cnt; i++)
479 if (!datasheet_put_row (ds, before + i, &c[i]))
482 case_destroy (&c[i]);
483 datasheet_delete_rows (ds, before - added, phy_cnt + added);
496 /* Deletes the CNT rows in DS starting from row FIRST. */
498 datasheet_delete_rows (struct datasheet *ds,
499 casenumber first, casenumber cnt)
503 /* Free up rows for reuse.
505 for (lrow = first; lrow < first + cnt; lrow++)
506 axis_make_available (ds->rows, axis_map (ds->rows, lrow), 1);
508 /* Remove rows from logical-to-physical mapping. */
509 axis_remove (ds->rows, first, cnt);
512 /* Moves the CNT rows in DS starting at position OLD_START so
513 that they then start at position NEW_START. Equivalent to
514 deleting the given rows, then inserting them at what becomes
515 position NEW_START after the deletion. */
517 datasheet_move_rows (struct datasheet *ds,
518 size_t old_start, size_t new_start,
521 axis_move (ds->rows, old_start, new_start, cnt);
524 static const struct casereader_random_class datasheet_reader_class;
526 /* Creates and returns a casereader whose input cases are the
527 rows in datasheet DS. From the caller's perspective, DS is
528 effectively destroyed by this operation, such that the caller
529 must not reference it again. */
531 datasheet_make_reader (struct datasheet *ds)
533 struct casereader *reader;
534 ds = datasheet_rename (ds);
535 reader = casereader_create_random (datasheet_get_column_cnt (ds),
536 datasheet_get_row_cnt (ds),
537 &datasheet_reader_class, ds);
538 taint_propagate (datasheet_get_taint (ds), casereader_get_taint (reader));
542 /* "read" function for the datasheet random casereader. */
544 datasheet_reader_read (struct casereader *reader UNUSED, void *ds_,
545 casenumber case_idx, struct ccase *c)
547 struct datasheet *ds = ds_;
548 if (case_idx >= datasheet_get_row_cnt (ds))
550 else if (datasheet_get_row (ds, case_idx, c))
554 taint_set_taint (ds->taint);
559 /* "destroy" function for the datasheet random casereader. */
561 datasheet_reader_destroy (struct casereader *reader UNUSED, void *ds_)
563 struct datasheet *ds = ds_;
564 datasheet_destroy (ds);
567 /* "advance" function for the datasheet random casereader. */
569 datasheet_reader_advance (struct casereader *reader UNUSED, void *ds_,
572 struct datasheet *ds = ds_;
573 datasheet_delete_rows (ds, 0, case_cnt);
576 /* Random casereader class for a datasheet. */
577 static const struct casereader_random_class datasheet_reader_class =
579 datasheet_reader_read,
580 datasheet_reader_destroy,
581 datasheet_reader_advance,
584 /* Removes SI from DS's set of sources and destroys its
587 free_source_info (struct datasheet *ds, struct source_info *si)
589 range_map_delete (&ds->sources, &si->column_range);
590 source_destroy (si->source);
594 static struct source_info *
595 source_info_from_range_map (struct range_map_node *node)
597 return range_map_data (node, struct source_info, column_range);
600 /* Reads (if OP is OP_READ) or writes (if op is OP_WRITE) the
601 COLUMN_CNT columns starting from column START_COLUMN in row
602 LROW to/from the COLUMN_CNT values in DATA. */
604 rw_case (struct datasheet *ds, enum rw_op op,
605 casenumber lrow, size_t start_column, size_t column_cnt,
611 assert (lrow < datasheet_get_row_cnt (ds));
612 assert (column_cnt <= datasheet_get_column_cnt (ds));
613 assert (start_column + column_cnt <= datasheet_get_column_cnt (ds));
615 prow = axis_map (ds->rows, lrow);
616 for (lcol = start_column; lcol < start_column + column_cnt; lcol++, data++)
618 size_t pcol = axis_map (ds->columns, lcol);
619 struct range_map_node *r = range_map_lookup (&ds->sources, pcol);
620 struct source_info *s = source_info_from_range_map (r);
621 size_t pcol_ofs = pcol - range_map_node_get_start (r);
623 ? source_read (s->source, prow, pcol_ofs, data, 1)
624 : source_write (s->source, prow, pcol_ofs, data, 1)))
626 taint_set_taint (ds->taint);
635 An axis has two functions. First, it maintains a mapping from
636 logical (client-visible) to physical (storage) ordinates. The
637 axis_map and axis_get_size functions inspect this mapping, and
638 the axis_insert, axis_remove, and axis_move functions modify
639 it. Second, it tracks the set of ordinates that are unused
640 and available for reuse. (Not all unused ordinates are
641 available for reuse: in particular, unused columns that are
642 backed by a casereader are never reused.) The axis_allocate,
643 axis_make_available, and axis_extend functions affect the set
644 of available ordinates. */
647 struct tower log_to_phy; /* Map from logical to physical ordinates;
648 contains "struct axis_group"s. */
649 struct range_set *available; /* Set of unused, available ordinates. */
650 unsigned long int phy_size; /* Current physical length of axis. */
653 /* A mapping from logical to physical ordinates. */
656 struct tower_node logical; /* Range of logical ordinates. */
657 unsigned long phy_start; /* First corresponding physical ordinate. */
660 static struct axis_group *axis_group_from_tower_node (struct tower_node *);
661 static struct tower_node *make_axis_group (unsigned long int phy_start);
662 static struct tower_node *split_axis (struct axis *, unsigned long int where);
663 static void merge_axis_nodes (struct axis *, struct tower_node *,
664 struct tower_node **other_node);
665 static void check_axis_merged (const struct axis *axis UNUSED);
667 /* Creates and returns a new, initially empty axis. */
671 struct axis *axis = xmalloc (sizeof *axis);
672 tower_init (&axis->log_to_phy);
673 axis->available = range_set_create ();
678 /* Returns a clone of existing axis OLD.
680 Currently this is used only by the datasheet model checker
681 driver, but it could be otherwise useful. */
683 axis_clone (const struct axis *old)
685 const struct tower_node *node;
688 new = xmalloc (sizeof *new);
689 tower_init (&new->log_to_phy);
690 new->available = range_set_clone (old->available, NULL);
691 new->phy_size = old->phy_size;
693 for (node = tower_first (&old->log_to_phy); node != NULL;
694 node = tower_next (&old->log_to_phy, node))
696 unsigned long int size = tower_node_get_height (node);
697 struct axis_group *group = tower_data (node, struct axis_group, logical);
698 tower_insert (&new->log_to_phy, size, make_axis_group (group->phy_start),
705 /* Adds the state of AXIS to the MD4 hash context CTX.
707 This is only used by the datasheet model checker driver. It
708 is unlikely to be otherwise useful. */
710 axis_hash (const struct axis *axis, struct md4_ctx *ctx)
712 const struct tower_node *tn;
713 const struct range_set_node *rsn;
715 for (tn = tower_first (&axis->log_to_phy); tn != NULL;
716 tn = tower_next (&axis->log_to_phy, tn))
718 struct axis_group *group = tower_data (tn, struct axis_group, logical);
719 unsigned long int phy_start = group->phy_start;
720 unsigned long int size = tower_node_get_height (tn);
722 md4_process_bytes (&phy_start, sizeof phy_start, ctx);
723 md4_process_bytes (&size, sizeof size, ctx);
726 for (rsn = range_set_first (axis->available); rsn != NULL;
727 rsn = range_set_next (axis->available, rsn))
729 unsigned long int start = range_set_node_get_start (rsn);
730 unsigned long int end = range_set_node_get_end (rsn);
732 md4_process_bytes (&start, sizeof start, ctx);
733 md4_process_bytes (&end, sizeof end, ctx);
736 md4_process_bytes (&axis->phy_size, sizeof axis->phy_size, ctx);
741 axis_destroy (struct axis *axis)
746 while (!tower_is_empty (&axis->log_to_phy))
748 struct tower_node *node = tower_first (&axis->log_to_phy);
749 struct axis_group *group = tower_data (node, struct axis_group,
751 tower_delete (&axis->log_to_phy, node);
755 range_set_destroy (axis->available);
759 /* Allocates up to REQUEST contiguous unused and available
760 ordinates from AXIS. If successful, stores the number
761 obtained into *WIDTH and the ordinate of the first into
762 *START, marks the ordinates as now unavailable return true.
763 On failure, which occurs only if AXIS has no unused and
764 available ordinates, returns false without modifying AXIS. */
766 axis_allocate (struct axis *axis, unsigned long int request,
767 unsigned long int *start, unsigned long int *width)
769 return range_set_allocate (axis->available, request, start, width);
772 /* Marks the WIDTH contiguous ordinates in AXIS, starting from
773 START, as unused and available. */
775 axis_make_available (struct axis *axis,
776 unsigned long int start, unsigned long int width)
778 range_set_insert (axis->available, start, width);
781 /* Extends the total physical length of AXIS by WIDTH and returns
782 the first ordinate in the new physical region. */
783 static unsigned long int
784 axis_extend (struct axis *axis, unsigned long int width)
786 unsigned long int start = axis->phy_size;
787 axis->phy_size += width;
791 /* Returns the physical ordinate in AXIS corresponding to logical
792 ordinate LOG_POS. LOG_POS must be less than the logical
794 static unsigned long int
795 axis_map (const struct axis *axis, unsigned long log_pos)
797 struct tower_node *node;
798 struct axis_group *group;
799 unsigned long int group_start;
801 node = tower_lookup (&axis->log_to_phy, log_pos, &group_start);
802 group = tower_data (node, struct axis_group, logical);
803 return group->phy_start + (log_pos - group_start);
806 /* Returns the logical length of AXIS. */
808 axis_get_size (const struct axis *axis)
810 return tower_height (&axis->log_to_phy);
813 /* Inserts the CNT contiguous physical ordinates starting at
814 PHY_START into AXIS's logical-to-physical mapping, starting at
815 logical position LOG_START. */
817 axis_insert (struct axis *axis,
818 unsigned long int log_start, unsigned long int phy_start,
819 unsigned long int cnt)
821 struct tower_node *before = split_axis (axis, log_start);
822 struct tower_node *new = make_axis_group (phy_start);
823 tower_insert (&axis->log_to_phy, cnt, new, before);
824 merge_axis_nodes (axis, new, NULL);
825 check_axis_merged (axis);
828 /* Removes CNT ordinates from AXIS's logical-to-physical mapping
829 starting at logical position START. */
831 axis_remove (struct axis *axis,
832 unsigned long int start, unsigned long int cnt)
836 struct tower_node *last = split_axis (axis, start + cnt);
837 struct tower_node *cur, *next;
838 for (cur = split_axis (axis, start); cur != last; cur = next)
840 next = tower_delete (&axis->log_to_phy, cur);
841 free (axis_group_from_tower_node (cur));
843 merge_axis_nodes (axis, last, NULL);
844 check_axis_merged (axis);
848 /* Moves the CNT ordinates in AXIS's logical-to-mapping starting
849 at logical position OLD_START so that they then start at
850 position NEW_START. */
852 axis_move (struct axis *axis,
853 unsigned long int old_start, unsigned long int new_start,
854 unsigned long int cnt)
856 if (cnt > 0 && old_start != new_start)
858 struct tower_node *old_first, *old_last, *new_first;
859 struct tower_node *merge1, *merge2;
860 struct tower tmp_array;
862 /* Move ordinates OLD_START...(OLD_START + CNT) into new,
863 separate TMP_ARRAY. */
864 old_first = split_axis (axis, old_start);
865 old_last = split_axis (axis, old_start + cnt);
866 tower_init (&tmp_array);
867 tower_splice (&tmp_array, NULL,
868 &axis->log_to_phy, old_first, old_last);
869 merge_axis_nodes (axis, old_last, NULL);
870 check_axis_merged (axis);
872 /* Move TMP_ARRAY to position NEW_START. */
873 new_first = split_axis (axis, new_start);
874 merge1 = tower_first (&tmp_array);
875 merge2 = tower_last (&tmp_array);
876 if (merge2 == merge1)
878 tower_splice (&axis->log_to_phy, new_first, &tmp_array, old_first, NULL);
879 merge_axis_nodes (axis, merge1, &merge2);
880 merge_axis_nodes (axis, merge2, NULL);
881 check_axis_merged (axis);
885 /* Returns the axis_group in which NODE is embedded. */
886 static struct axis_group *
887 axis_group_from_tower_node (struct tower_node *node)
889 return tower_data (node, struct axis_group, logical);
892 /* Creates and returns a new axis_group at physical position
894 static struct tower_node *
895 make_axis_group (unsigned long phy_start)
897 struct axis_group *group = xmalloc (sizeof *group);
898 group->phy_start = phy_start;
899 return &group->logical;
902 /* Returns the tower_node in AXIS's logical-to-physical map whose
903 bottom edge is at exact level WHERE. If there is no such
904 tower_node in AXIS's logical-to-physical map, then split_axis
905 creates one by breaking an existing tower_node into two
906 separate ones, unless WHERE is equal to the tower height, in
907 which case it simply returns a null pointer. */
908 static struct tower_node *
909 split_axis (struct axis *axis, unsigned long int where)
911 unsigned long int group_start;
912 struct tower_node *group_node;
913 struct axis_group *group;
915 assert (where <= tower_height (&axis->log_to_phy));
916 if (where >= tower_height (&axis->log_to_phy))
919 group_node = tower_lookup (&axis->log_to_phy, where, &group_start);
920 group = axis_group_from_tower_node (group_node);
921 if (where > group_start)
923 unsigned long int size_1 = where - group_start;
924 unsigned long int size_2 = tower_node_get_height (group_node) - size_1;
925 struct tower_node *next = tower_next (&axis->log_to_phy, group_node);
926 struct tower_node *new = make_axis_group (group->phy_start + size_1);
927 tower_resize (&axis->log_to_phy, group_node, size_1);
928 tower_insert (&axis->log_to_phy, size_2, new, next);
932 return &group->logical;
935 /* Within AXIS, attempts to merge NODE (or the last node in AXIS,
936 if NODE is null) with its neighbor nodes. This is possible
937 when logically adjacent nodes are also adjacent physically (in
940 When a merge occurs, and OTHER_NODE is non-null and points to
941 the node to be deleted, this function also updates
942 *OTHER_NODE, if necessary, to ensure that it remains a valid
945 merge_axis_nodes (struct axis *axis, struct tower_node *node,
946 struct tower_node **other_node)
948 struct tower *t = &axis->log_to_phy;
949 struct axis_group *group;
950 struct tower_node *next, *prev;
952 /* Find node to potentially merge with neighbors. */
954 node = tower_last (t);
957 group = axis_group_from_tower_node (node);
959 /* Try to merge NODE with successor. */
960 next = tower_next (t, node);
963 struct axis_group *next_group = axis_group_from_tower_node (next);
964 unsigned long this_height = tower_node_get_height (node);
966 if (group->phy_start + this_height == next_group->phy_start)
968 unsigned long next_height = tower_node_get_height (next);
969 tower_resize (t, node, this_height + next_height);
970 if (other_node != NULL && *other_node == next)
971 *other_node = tower_next (t, *other_node);
972 tower_delete (t, next);
977 /* Try to merge NODE with predecessor. */
978 prev = tower_prev (t, node);
981 struct axis_group *prev_group = axis_group_from_tower_node (prev);
982 unsigned long prev_height = tower_node_get_height (prev);
984 if (prev_group->phy_start + prev_height == group->phy_start)
986 unsigned long this_height = tower_node_get_height (node);
987 group->phy_start = prev_group->phy_start;
988 tower_resize (t, node, this_height + prev_height);
989 if (other_node != NULL && *other_node == prev)
990 *other_node = tower_next (t, *other_node);
991 tower_delete (t, prev);
997 /* Verify that all potentially merge-able nodes in AXIS are
1000 check_axis_merged (const struct axis *axis UNUSED)
1002 #if ASSERT_LEVEL >= 10
1003 struct tower_node *prev, *node;
1005 for (prev = NULL, node = tower_first (&axis->log_to_phy); node != NULL;
1006 prev = node, node = tower_next (&axis->log_to_phy, node))
1009 struct axis_group *prev_group = axis_group_from_tower_node (prev);
1010 unsigned long prev_height = tower_node_get_height (prev);
1011 struct axis_group *node_group = axis_group_from_tower_node (node);
1012 assert (prev_group->phy_start + prev_height != node_group->phy_start);
1020 size_t columns_used; /* Number of columns in use by client. */
1021 struct sparse_cases *data; /* Data at top level, atop the backing. */
1022 struct casereader *backing; /* Backing casereader (or null). */
1023 casenumber backing_rows; /* Number of rows in backing (if nonnull). */
1026 /* Creates and returns an empty, unbacked source with COLUMN_CNT
1027 columns and an initial "columns_used" of 0. */
1028 static struct source *
1029 source_create_empty (size_t column_cnt)
1031 struct source *source = xmalloc (sizeof *source);
1032 source->columns_used = 0;
1033 source->data = sparse_cases_create (column_cnt);
1034 source->backing = NULL;
1035 source->backing_rows = 0;
1039 /* Creates and returns a new source backed by READER and with the
1040 same initial dimensions and content. */
1041 static struct source *
1042 source_create_casereader (struct casereader *reader)
1044 struct source *source
1045 = source_create_empty (casereader_get_value_cnt (reader));
1046 source->backing = reader;
1047 source->backing_rows = casereader_count_cases (reader);
1051 /* Returns a clone of source OLD with the same data and backing
1054 Currently this is used only by the datasheet model checker
1055 driver, but it could be otherwise useful. */
1056 static struct source *
1057 source_clone (const struct source *old)
1059 struct source *new = xmalloc (sizeof *new);
1060 new->columns_used = old->columns_used;
1061 new->data = sparse_cases_clone (old->data);
1062 new->backing = old->backing != NULL ? casereader_clone (old->backing) : NULL;
1063 new->backing_rows = old->backing_rows;
1064 if (new->data == NULL)
1066 source_destroy (new);
1072 /* Increases the columns_used count of SOURCE by DELTA.
1073 The new value must not exceed SOURCE's number of columns. */
1075 source_increase_use (struct source *source, size_t delta)
1077 source->columns_used += delta;
1078 assert (source->columns_used <= sparse_cases_get_value_cnt (source->data));
1081 /* Decreases the columns_used count of SOURCE by DELTA.
1082 This must not attempt to decrease the columns_used count below
1085 source_decrease_use (struct source *source, size_t delta)
1087 assert (delta <= source->columns_used);
1088 source->columns_used -= delta;
1091 /* Returns true if SOURCE has any columns in use,
1094 source_in_use (const struct source *source)
1096 return source->columns_used > 0;
1099 /* Destroys SOURCE and its data and backing, if any. */
1101 source_destroy (struct source *source)
1105 sparse_cases_destroy (source->data);
1106 casereader_destroy (source->backing);
1111 /* Returns the number of rows in SOURCE's backing casereader
1112 (SOURCE must have a backing casereader). */
1114 source_get_backing_row_cnt (const struct source *source)
1116 assert (source_has_backing (source));
1117 return source->backing_rows;
1120 /* Returns the number of columns in SOURCE. */
1122 source_get_column_cnt (const struct source *source)
1124 return sparse_cases_get_value_cnt (source->data);
1127 /* Reads VALUE_CNT columns from SOURCE in the given ROW, starting
1128 from COLUMN, into VALUES. Returns true if successful, false
1131 source_read (const struct source *source,
1132 casenumber row, size_t column,
1133 union value values[], size_t value_cnt)
1135 if (source->backing == NULL || sparse_cases_contains_row (source->data, row))
1136 return sparse_cases_read (source->data, row, column, values, value_cnt);
1142 assert (source->backing != NULL);
1143 ok = casereader_peek (source->backing, row, &c);
1146 case_copy_out (&c, column, values, value_cnt);
1153 /* Writes the VALUE_CNT values in VALUES to SOURCE in the given
1154 ROW, starting at ROW. Returns true if successful, false on
1155 I/O error. On error, the row's data may be completely or
1156 partially corrupted, both inside and outside the region to be
1159 source_write (struct source *source,
1160 casenumber row, size_t column,
1161 const union value values[], size_t value_cnt)
1163 size_t column_cnt = sparse_cases_get_value_cnt (source->data);
1166 if (source->backing == NULL
1167 || (column == 0 && value_cnt == column_cnt)
1168 || sparse_cases_contains_row (source->data, row))
1169 ok = sparse_cases_write (source->data, row, column, values, value_cnt);
1173 if (row < source->backing_rows)
1174 ok = casereader_peek (source->backing, row, &c);
1177 /* It's not one of the backed rows. Ideally, this
1178 should never happen: we'd always be writing the full
1179 contents of new, unbacked rows in a single call to
1180 this function, so that the first case above would
1181 trigger. But that's a little difficult at higher
1182 levels, so that we in fact usually write the full
1183 contents of new, unbacked rows in multiple calls to
1184 this function. Make this work. */
1185 case_create (&c, column_cnt);
1190 case_copy_in (&c, column, values, value_cnt);
1191 ok = sparse_cases_write (source->data, row, 0,
1192 case_data_all (&c), column_cnt);
1199 /* Within SOURCE, which must not have a backing casereader,
1200 writes the VALUE_CNT values in VALUES_CNT to the VALUE_CNT
1201 columns starting from START_COLUMN, in every row, even in rows
1202 not yet otherwise initialized. Returns true if successful,
1203 false if an I/O error occurs.
1205 We don't support backing != NULL because (1) it's harder and
1206 (2) source_write_columns is only called by
1207 datasheet_insert_columns, which doesn't reuse columns from
1208 sources that are backed by casereaders. */
1210 source_write_columns (struct source *source, size_t start_column,
1211 const union value values[], size_t value_cnt)
1213 assert (source->backing == NULL);
1215 return sparse_cases_write_columns (source->data, start_column,
1219 /* Returns true if SOURCE has a backing casereader, false
1222 source_has_backing (const struct source *source)
1224 return source->backing != NULL;
1227 /* Datasheet model checker test driver. */
1229 /* Maximum size of datasheet supported for model checking
1235 /* Clones the structure and contents of ODS into a new datasheet,
1236 and returns the new datasheet. */
1238 clone_datasheet (const struct datasheet *ods)
1240 struct datasheet *ds;
1241 struct range_map_node *r;
1243 ds = xmalloc (sizeof *ds);
1244 ds->columns = axis_clone (ods->columns);
1245 ds->rows = axis_clone (ods->rows);
1246 range_map_init (&ds->sources);
1247 for (r = range_map_first (&ods->sources); r != NULL;
1248 r = range_map_next (&ods->sources, r))
1250 const struct source_info *osi = source_info_from_range_map (r);
1251 struct source_info *si = xmalloc (sizeof *si);
1252 si->source = source_clone (osi->source);
1253 range_map_insert (&ds->sources, range_map_node_get_start (r),
1254 range_map_node_get_width (r), &si->column_range);
1256 ds->column_min_alloc = ods->column_min_alloc;
1257 ds->taint = taint_create ();
1263 /* Hashes the structure of datasheet DS and returns the hash.
1264 We use MD4 because it is much faster than MD5 or SHA-1 but its
1265 collision resistance is just as good. */
1267 hash_datasheet (const struct datasheet *ds)
1269 unsigned int hash[DIV_RND_UP (20, sizeof (unsigned int))];
1271 struct range_map_node *r;
1273 md4_init_ctx (&ctx);
1274 axis_hash (ds->columns, &ctx);
1275 axis_hash (ds->rows, &ctx);
1276 for (r = range_map_first (&ds->sources); r != NULL;
1277 r = range_map_next (&ds->sources, r))
1279 unsigned long int start = range_map_node_get_start (r);
1280 unsigned long int end = range_map_node_get_end (r);
1281 md4_process_bytes (&start, sizeof start, &ctx);
1282 md4_process_bytes (&end, sizeof end, &ctx);
1284 md4_process_bytes (&ds->column_min_alloc, sizeof ds->column_min_alloc,
1286 md4_finish_ctx (&ctx, hash);