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/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */
/*
* E-table-sorted.c: Implements a table that sorts another table
*
* Author:
* Miguel de Icaza (miguel@gnu.org)
*
* (C) 1999 Helix Code, Inc.
*/
#include <config.h>
#include <stdlib.h>
#include <gtk/gtksignal.h>
#include <string.h>
#include "gal/util/e-util.h"
#include "e-table-sorter.h"
#define d(x)
/* The arguments we take */
enum {
ARG_0,
ARG_SORT_INFO
};
#define PARENT_TYPE gtk_object_get_type()
#define INCREMENT_AMOUNT 100
static GtkObjectClass *parent_class;
static void ets_model_changed (ETableModel *etm, ETableSorter *ets);
static void ets_model_row_changed (ETableModel *etm, int row, ETableSorter *ets);
static void ets_model_cell_changed (ETableModel *etm, int col, int row, ETableSorter *ets);
static void ets_sort_info_changed (ETableSortInfo *info, ETableSorter *ets);
static void ets_clean (ETableSorter *ets);
static void ets_sort (ETableSorter *ets);
static void ets_backsort (ETableSorter *ets);
static void
ets_destroy (GtkObject *object)
{
ETableSorter *ets = E_TABLE_SORTER (object);
gtk_signal_disconnect (GTK_OBJECT (ets->source),
ets->table_model_changed_id);
gtk_signal_disconnect (GTK_OBJECT (ets->source),
ets->table_model_row_changed_id);
gtk_signal_disconnect (GTK_OBJECT (ets->source),
ets->table_model_cell_changed_id);
gtk_signal_disconnect (GTK_OBJECT (ets->sort_info),
ets->sort_info_changed_id);
ets->table_model_changed_id = 0;
ets->table_model_row_changed_id = 0;
ets->table_model_cell_changed_id = 0;
ets->sort_info_changed_id = 0;
if (ets->sort_info)
gtk_object_unref(GTK_OBJECT(ets->sort_info));
if (ets->full_header)
gtk_object_unref(GTK_OBJECT(ets->full_header));
if (ets->source)
gtk_object_unref(GTK_OBJECT(ets->source));
GTK_OBJECT_CLASS (parent_class)->destroy (object);
}
static void
ets_set_arg (GtkObject *object, GtkArg *arg, guint arg_id)
{
ETableSorter *ets = E_TABLE_SORTER (object);
switch (arg_id) {
case ARG_SORT_INFO:
if (ets->sort_info) {
if (ets->sort_info_changed_id)
gtk_signal_disconnect(GTK_OBJECT(ets->sort_info), ets->sort_info_changed_id);
gtk_object_unref(GTK_OBJECT(ets->sort_info));
}
ets->sort_info = E_TABLE_SORT_INFO(GTK_VALUE_OBJECT (*arg));
ets->sort_info_changed_id = gtk_signal_connect (GTK_OBJECT (ets->sort_info), "sort_info_changed",
GTK_SIGNAL_FUNC (ets_sort_info_changed), ets);
ets_clean (ets);
break;
default:
break;
}
}
static void
ets_get_arg (GtkObject *object, GtkArg *arg, guint arg_id)
{
ETableSorter *ets = E_TABLE_SORTER (object);
switch (arg_id) {
case ARG_SORT_INFO:
GTK_VALUE_OBJECT (*arg) = GTK_OBJECT(ets->sort_info);
break;
}
}
static void
ets_class_init (ETableSorterClass *klass)
{
GtkObjectClass *object_class = GTK_OBJECT_CLASS(klass);
parent_class = gtk_type_class (PARENT_TYPE);
object_class->destroy = ets_destroy;
object_class->set_arg = ets_set_arg;
object_class->get_arg = ets_get_arg;
gtk_object_add_arg_type ("ETableSorter::sort_info", GTK_TYPE_OBJECT,
GTK_ARG_READWRITE, ARG_SORT_INFO);
}
static void
ets_init (ETableSorter *ets)
{
ets->full_header = NULL;
ets->sort_info = NULL;
ets->source = NULL;
ets->needs_sorting = -1;
ets->table_model_changed_id = 0;
ets->table_model_row_changed_id = 0;
ets->table_model_cell_changed_id = 0;
ets->sort_info_changed_id = 0;
}
E_MAKE_TYPE(e_table_sorter, "ETableSorter", ETableSorter, ets_class_init, ets_init, PARENT_TYPE);
ETableSorter *
e_table_sorter_new (ETableModel *source, ETableHeader *full_header, ETableSortInfo *sort_info)
{
ETableSorter *ets = gtk_type_new (E_TABLE_SORTER_TYPE);
ets->sort_info = sort_info;
gtk_object_ref(GTK_OBJECT(ets->sort_info));
ets->full_header = full_header;
gtk_object_ref(GTK_OBJECT(ets->full_header));
ets->source = source;
gtk_object_ref(GTK_OBJECT(ets->source));
ets->table_model_changed_id = gtk_signal_connect (GTK_OBJECT (source), "model_changed",
GTK_SIGNAL_FUNC (ets_model_changed), ets);
ets->table_model_row_changed_id = gtk_signal_connect (GTK_OBJECT (source), "model_row_changed",
GTK_SIGNAL_FUNC (ets_model_row_changed), ets);
ets->table_model_cell_changed_id = gtk_signal_connect (GTK_OBJECT (source), "model_cell_changed",
GTK_SIGNAL_FUNC (ets_model_cell_changed), ets);
ets->sort_info_changed_id = gtk_signal_connect (GTK_OBJECT (sort_info), "sort_info_changed",
GTK_SIGNAL_FUNC (ets_sort_info_changed), ets);
return ets;
}
static void
ets_model_changed (ETableModel *etm, ETableSorter *ets)
{
ets_clean(ets);
}
static void
ets_model_row_changed (ETableModel *etm, int row, ETableSorter *ets)
{
ets_clean(ets);
}
static void
ets_model_cell_changed (ETableModel *etm, int col, int row, ETableSorter *ets)
{
ets_clean(ets);
}
static void
ets_sort_info_changed (ETableSortInfo *info, ETableSorter *ets)
{
printf ("sort info changed\n");
ets_clean(ets);
}
static ETableSorter *ets_closure;
void **vals_closure;
int cols_closure;
int *ascending_closure;
GCompareFunc *compare_closure;
/* FIXME: Make it not cache the second and later columns (as if anyone cares.) */
static int
qsort_callback(const void *data1, const void *data2)
{
gint row1 = *(int *)data1;
gint row2 = *(int *)data2;
int j;
int sort_count = e_table_sort_info_sorting_get_count(ets_closure->sort_info) + e_table_sort_info_grouping_get_count(ets_closure->sort_info);
int comp_val = 0;
int ascending = 1;
for (j = 0; j < sort_count; j++) {
comp_val = (*(compare_closure[j]))(vals_closure[cols_closure * row1 + j], vals_closure[cols_closure * row2 + j]);
ascending = ascending_closure[j];
if (comp_val != 0)
break;
}
if (comp_val == 0) {
if (row1 < row2)
comp_val = -1;
if (row1 > row2)
comp_val = 1;
}
if (!ascending)
comp_val = -comp_val;
return comp_val;
}
static void
ets_clean(ETableSorter *ets)
{
g_free(ets->sorted);
ets->sorted = NULL;
g_free(ets->backsorted);
ets->backsorted = NULL;
ets->needs_sorting = -1;
}
struct _group_info {
char *group;
int row;
};
struct _rowinfo {
int row;
struct _subinfo *subinfo;
struct _group_info *groupinfo;
};
struct _subinfo {
int start;
GArray *rowsort; /* an array of row info's */
};
static int
qsort_callback_complex(const void *data1, const void *data2)
{
gint row1 = ((struct _rowinfo *)data1)->row;
gint row2 = ((struct _rowinfo *)data2)->row;
int j;
int sort_count = e_table_sort_info_sorting_get_count(ets_closure->sort_info);
int comp_val = 0;
int ascending = 1;
for (j = 0; j < sort_count; j++) {
comp_val = (*(compare_closure[j]))(vals_closure[cols_closure * row1 + j], vals_closure[cols_closure * row2 + j]);
ascending = ascending_closure[j];
if (comp_val != 0)
break;
}
if (comp_val == 0) {
if (row1 < row2)
comp_val = -1;
if (row1 > row2)
comp_val = 1;
}
if (!ascending)
comp_val = -comp_val;
return comp_val;
}
/* builds the info needed to sort everything */
static struct _subinfo *
ets_sort_build_subset(ETableSorter *ets, struct _group_info *groupinfo, int start, int *end)
{
int rows = e_table_model_row_count (ets->source);
int i, lastinsert;
GArray *rowsort = g_array_new(0, 0, sizeof(struct _rowinfo));
struct _subinfo *subinfo, *newsub;
char *id, *newid;
int idlen, newidlen;
int cmp;
int cmplen;
subinfo = g_malloc0(sizeof(*subinfo));
subinfo->rowsort = rowsort;
subinfo->start = start;
lastinsert = -1;
id = groupinfo[start].group;
newid = strrchr(id, '/');
idlen = strlen(id);
if (newid)
cmplen = newid-id;
else
cmplen = idlen;
d(printf("%d scanning level %s\n", start, id));
for (i=start;i<rows;i++) {
newid = groupinfo[i].group;
newidlen = strlen(newid);
d(printf("%d checking group %s\n", start, newid));
cmp = strncmp(id, newid, cmplen);
/* check for common parent */
if (idlen == newidlen && cmp == 0) {
struct _rowinfo rowinfo;
d(printf("%d Same parent\n", start));
rowinfo.row = groupinfo[i].row;
rowinfo.subinfo = NULL;
rowinfo.groupinfo = &groupinfo[i];
lastinsert = rowsort->len;
g_array_append_val(rowsort, rowinfo);
#ifdef DEBUG
total++;
#endif
} else if (newidlen > idlen) {
/* must be a new subtree */
d(printf("%d checking subtree instead\n", start));
newsub = ets_sort_build_subset(ets, groupinfo, i, &i);
d(printf("found %d nodes in subtree\n", newsub->rowsort->len));
g_array_index(rowsort, struct _rowinfo, lastinsert).subinfo = newsub;
} else {
i--;
break;
}
}
if (end)
*end = i;
d(printf("finished level %s start was %d end was %d\n", id, start, i));
return subinfo;
}
/* sort each level, and then sort each level below that level (once we know
where the sublevel will fit in the overall list) */
static int
ets_sort_subset(ETableSorter *ets, struct _subinfo *subinfo, int startoffset)
{
GArray *rowsort = subinfo->rowsort;
int offset, i;
d(printf("sorting subset start %d rows %d\n", startoffset, rowsort->len));
/* first, sort the actual data */
qsort(rowsort->data, rowsort->len, sizeof(struct _rowinfo), qsort_callback_complex);
/* then put it back in the map table, where appropriate */
offset = startoffset;
for (i=0;i<rowsort->len;i++) {
struct _rowinfo *rowinfo;
d(printf("setting offset %d\n", offset));
rowinfo = &g_array_index(rowsort, struct _rowinfo, i);
ets->sorted[offset] = rowinfo->row;
if (rowinfo->subinfo) {
offset = ets_sort_subset(ets, rowinfo->subinfo, offset+1);
} else
offset += 1;
}
d(printf("end sort subset start %d\n", startoffset));
return offset;
}
static void
ets_sort_free_subset(ETableSorter *ets, struct _subinfo *subinfo)
{
int i;
for (i=0;i<subinfo->rowsort->len;i++) {
struct _rowinfo *rowinfo;
rowinfo = &g_array_index(subinfo->rowsort, struct _rowinfo, i);
if (rowinfo->subinfo)
ets_sort_free_subset(ets, rowinfo->subinfo);
}
g_array_free(subinfo->rowsort, TRUE);
g_free(subinfo);
}
static int
sort_groups_compare(const void *ap, const void *bp)
{
struct _group_info *a = (struct _group_info *)ap;
struct _group_info *b = (struct _group_info *)bp;
return strcmp(a->group, b->group);
}
/* use the sort group to select subsorts */
static void
ets_sort_by_group (ETableSorter *ets)
{
int rows = e_table_model_row_count (ets->source);
struct _group_info *groups;
struct _subinfo *subinfo;
int i;
d(printf("sorting %d rows\n", rows));
if (rows == 0)
return;
/* get all the rows' sort groups */
groups = g_malloc(sizeof(struct _group_info) * rows);
for (i=0;i<rows;i++) {
groups[i].row = i;
groups[i].group = g_strdup(e_table_model_row_sort_group(ets->source, groups[i].row));
}
/* sort the group info */
qsort(groups, rows, sizeof(struct _group_info), sort_groups_compare);
d(printf("sorted groups:\n");
for (i=0;i<rows;i++) {
printf(" %s\n", groups[i].group);
});
/* now sort based on the group info */
subinfo = ets_sort_build_subset(ets, groups, 0, NULL);
for (i=0;i<rows;i++) {
g_free(groups[i].group);
}
g_free(groups);
ets_sort_subset(ets, subinfo, 0);
ets_sort_free_subset(ets, subinfo);
}
static void
ets_sort(ETableSorter *ets)
{
int rows;
int i;
int j;
int cols;
int group_cols;
if (ets->sorted)
return;
ets->needs_sorting = 0;
rows = e_table_model_row_count(ets->source);
group_cols = e_table_sort_info_grouping_get_count(ets->sort_info);
cols = e_table_sort_info_sorting_get_count(ets->sort_info) + group_cols;
ets->sorted = g_new(int, rows);
for (i = 0; i < rows; i++)
ets->sorted[i] = i;
cols_closure = cols;
ets_closure = ets;
vals_closure = g_new(void *, rows * cols);
ascending_closure = g_new(int, cols);
compare_closure = g_new(GCompareFunc, cols);
for (j = 0; j < cols; j++) {
ETableSortColumn column;
ETableCol *col;
if (j < group_cols)
column = e_table_sort_info_grouping_get_nth(ets->sort_info, j);
else
column = e_table_sort_info_sorting_get_nth(ets->sort_info, j - group_cols);
if (column.column > e_table_header_count (ets->full_header))
col = e_table_header_get_column (ets->full_header, e_table_header_count (ets->full_header) - 1);
else
col = e_table_header_get_column (ets->full_header, column.column);
for (i = 0; i < rows; i++) {
vals_closure[i * cols + j] = e_table_model_value_at (ets->source, col->col_idx, i);
}
compare_closure[j] = col->compare;
ascending_closure[j] = column.ascending;
}
if (e_table_model_has_sort_group (ets->source)) {
ets_sort_by_group (ets);
}
else {
qsort(ets->sorted, rows, sizeof(int), qsort_callback);
}
g_free(vals_closure);
g_free(ascending_closure);
g_free(compare_closure);
}
static void
ets_backsort(ETableSorter *ets)
{
int i, rows;
if (ets->backsorted)
return;
ets_sort(ets);
rows = e_table_model_row_count(ets->source);
ets->backsorted = g_new0(int, rows);
for (i = 0; i < rows; i++) {
ets->backsorted[ets->sorted[i]] = i;
}
}
gboolean
e_table_sorter_needs_sorting(ETableSorter *ets)
{
if (ets->needs_sorting < 0) {
if (e_table_sort_info_sorting_get_count(ets->sort_info) + e_table_sort_info_grouping_get_count(ets->sort_info))
ets->needs_sorting = 1;
else
ets->needs_sorting = 0;
}
return ets->needs_sorting;
}
gint
e_table_sorter_model_to_sorted (ETableSorter *sorter, int row)
{
int rows = e_table_model_row_count(sorter->source);
g_return_val_if_fail(row >= 0, -1);
g_return_val_if_fail(row < rows, -1);
if (e_table_sorter_needs_sorting(sorter))
ets_backsort(sorter);
if (sorter->backsorted)
return sorter->backsorted[row];
else
return row;
}
gint
e_table_sorter_sorted_to_model (ETableSorter *sorter, int row)
{
int rows = e_table_model_row_count(sorter->source);
g_return_val_if_fail(row >= 0, -1);
g_return_val_if_fail(row < rows, -1);
if (e_table_sorter_needs_sorting(sorter))
ets_sort(sorter);
if (sorter->sorted)
return sorter->sorted[row];
else
return row;
}
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