#include "libpspp/hash-functions.h"
#include "libpspp/hmap.h"
#include "libpspp/pool.h"
+#include "output/pivot-output.h"
+#include "output/pivot-table.h"
#include "output/render.h"
-#include "output/tab.h"
-#include "output/table-item.h"
#include "output/table.h"
#include "gl/minmax.h"
cp[H][2] = cp[H][1] + the width of the leftmost column.
cp[H][3] = cp[H][2] + the width of the second-from-left vertical rule.
and so on:
- cp[H][2 * nc] = x position of the rightmost vertical rule.
- cp[H][2 * nc + 1] = total table width including all rules.
+ cp[H][2 * n[H]] = x position of the rightmost vertical rule.
+ cp[H][2 * n[H] + 1] = total table width including all rules.
Similarly, cp[V] represents y positions within the table.
cp[V][0] = 0.
cp[V][2] = cp[V][1] + the height of the topmost row.
cp[V][3] = cp[V][2] + the height of the second-from-top horizontal rule.
and so on:
- cp[V][2 * nr] = y position of the bottommost horizontal rule.
- cp[V][2 * nr + 1] = total table height including all rules.
+ cp[V][2 * n[V]] = y position of the bottommost horizontal rule.
+ cp[V][2 * n[V] + 1] = total table height including all rules.
Rules and columns can have width or height 0, in which case consecutive
values in this array are equal. */
return page->cp[axis][ofs1] - page->cp[axis][ofs0];
}
+/* Returns the total width of PAGE along AXIS. */
+static int
+table_width (const struct render_page *page, int axis)
+{
+ return page->cp[axis][2 * page->n[axis] + 1];
+}
+
/* Returns the width of the headers in PAGE along AXIS. */
static int
headers_width (const struct render_page *page, int axis)
{
switch (type)
{
- case TAL_NONE:
+ case TABLE_STROKE_NONE:
return RENDER_LINE_NONE;
- case TAL_SOLID:
+ case TABLE_STROKE_SOLID:
return RENDER_LINE_SINGLE;
- case TAL_DASHED:
+ case TABLE_STROKE_DASHED:
return RENDER_LINE_DASHED;
- case TAL_THICK:
+ case TABLE_STROKE_THICK:
return RENDER_LINE_THICK;
- case TAL_THIN:
+ case TABLE_STROKE_THIN:
return RENDER_LINE_THIN;
- case TAL_DOUBLE:
+ case TABLE_STROKE_DOUBLE:
return RENDER_LINE_DOUBLE;
default:
NOT_REACHED ();
for (d[b] = 0; d[b] < table->n[b]; d[b]++)
rules |= 1u << table_get_rule (table, a, d[H], d[V], &color);
- /* Turn off TAL_NONE because it has width 0 and we needn't bother. However,
- if the device doesn't support margins, make sure that there is at least a
- small gap between cells (but we don't need any at the left or right edge
- of the table). */
- if (rules & (1u << TAL_NONE))
+ /* Turn off TABLE_STROKE_NONE because it has width 0 and we needn't bother.
+ However, if the device doesn't support margins, make sure that there is at
+ least a small gap between cells (but we don't need any at the left or
+ right edge of the table). */
+ if (rules & (1u << TABLE_STROKE_NONE))
{
- rules &= ~(1u << TAL_NONE);
+ rules &= ~(1u << TABLE_STROKE_NONE);
if (z > 0 && z < table->n[a] && !params->supports_margins && a == H)
- rules |= 1u << TAL_SOLID;
+ rules |= 1u << TABLE_STROKE_SOLID;
}
/* Calculate maximum width of the rules that are present. */
int width = 0;
for (size_t i = 0; i < TABLE_N_STROKES; i++)
if (rules & (1u << i))
- width = MAX (width, params->line_widths[a][rule_to_render_type (i)]);
+ width = MAX (width, params->line_widths[rule_to_render_type (i)]);
return width;
}
for (int i = 0; i < TABLE_N_AXES; i++)
{
- page->cp[i] = xmalloc ((2 * n[i] + 2) * sizeof *page->cp[i]);
- page->join_crossing[i] = xzalloc ((n[i] + 1)
- * sizeof *page->join_crossing[i]);
+ page->cp[i] = xcalloc ((2 * n[i] + 2) , sizeof *page->cp[i]);
+ page->join_crossing[i] = xcalloc ((n[i] + 1) , sizeof *page->join_crossing[i]);
}
hmap_init (&page->overflows);
{
enum { MIN, MAX };
- int nc = table_nc (table);
- int nr = table_nr (table);
+ int nc = table->n[H];
+ int nr = table->n[V];
/* Figure out rule widths. */
int *rules[TABLE_N_AXES];
span multiple columns. */
struct render_row *columns[2];
for (int i = 0; i < 2; i++)
- columns[i] = xzalloc (nc * sizeof *columns[i]);
+ columns[i] = xcalloc (nc, sizeof *columns[i]);
for (int y = 0; y < nr; y++)
- for (int x = 0; x < nc; )
+ for (int x = 0; x < nc;)
{
struct table_cell cell;
if (table_cell_colspan (&cell) == 1)
{
int w[2];
- params->measure_cell_width (params->aux, &cell,
- &w[MIN], &w[MAX]);
+ params->ops->measure_cell_width (params->aux, &cell,
+ &w[MIN], &w[MAX]);
for (int i = 0; i < 2; i++)
if (columns[i][x].unspanned < w[i])
columns[i][x].unspanned = w[i];
for (int x = 0; x < nc; x++)
columns[i][x].width = columns[i][x].unspanned;
for (int y = 0; y < nr; y++)
- for (int x = 0; x < nc; )
+ for (int x = 0; x < nc;)
{
struct table_cell cell;
{
int w[2];
- params->measure_cell_width (params->aux, &cell, &w[MIN], &w[MAX]);
+ params->ops->measure_cell_width (params->aux, &cell,
+ &w[MIN], &w[MAX]);
for (int i = 0; i < 2; i++)
distribute_spanned_width (w[i], &columns[i][cell.d[H][0]],
rules[H], table_cell_colspan (&cell));
/* Decide final column widths. */
int table_widths[2];
for (int i = 0; i < 2; i++)
- table_widths[i] = calculate_table_width (table_nc (table),
+ table_widths[i] = calculate_table_width (table->n[H],
columns[i], rules[H]);
struct render_page *page;
}
/* Calculate heights of cells that do not span multiple rows. */
- struct render_row *rows = xzalloc (nr * sizeof *rows);
+ struct render_row *rows = XCALLOC (nr, struct render_row);
for (int y = 0; y < nr; y++)
- for (int x = 0; x < nc; )
+ for (int x = 0; x < nc;)
{
struct render_row *r = &rows[y];
struct table_cell cell;
if (table_cell_rowspan (&cell) == 1)
{
int w = joined_width (page, H, cell.d[H][0], cell.d[H][1]);
- int h = params->measure_cell_height (params->aux, &cell, w);
+ int h = params->ops->measure_cell_height (params->aux,
+ &cell, w);
if (h > r->unspanned)
r->unspanned = r->width = h;
}
/* Distribute heights of spanned rows. */
for (int y = 0; y < nr; y++)
- for (int x = 0; x < nc; )
+ for (int x = 0; x < nc;)
{
struct table_cell cell;
if (y == cell.d[V][0] && table_cell_rowspan (&cell) > 1)
{
int w = joined_width (page, H, cell.d[H][0], cell.d[H][1]);
- int h = params->measure_cell_height (params->aux, &cell, w);
+ int h = params->ops->measure_cell_height (params->aux, &cell, w);
distribute_spanned_width (h, &rows[cell.d[V][0]], rules[V],
table_cell_rowspan (&cell));
}
{
d[a] = d2;
int r2 = table_get_rule (page->table, axis, d[H], d[V], color);
- r = table_rule_combine (r, r2);
+ r = table_stroke_combine (r, r2);
}
return rule_to_render_type (r);
}
this string with "output-direction-rtl". Otherwise either leave it
untranslated or copy it verbatim. */
const char *dir = _("output-direction-ltr");
- if ( 0 == strcmp ("output-direction-rtl", dir))
+ if (0 == strcmp ("output-direction-rtl", dir))
return true;
- if ( 0 != strcmp ("output-direction-ltr", dir))
+ if (0 != strcmp ("output-direction-ltr", dir))
fprintf (stderr, "This localisation has been incorrectly translated. "
"Complain to the translator.\n");
}
bb[V][0] = ofs[V] + page->cp[V][d[V]];
bb[V][1] = ofs[V] + page->cp[V][d[V] + 1];
- page->params->draw_line (page->params->aux, bb, styles, colors);
+ page->params->ops->draw_line (page->params->aux, bb, styles, colors);
}
}
bb[V][0] = clip[V][0] = ofs[V] + page->cp[V][cell->d[V][0] * 2 + 1];
bb[V][1] = clip[V][1] = ofs[V] + page->cp[V][cell->d[V][1] * 2];
- enum table_valign valign = cell->style->cell_style.valign;
+ enum table_valign valign = cell->cell_style->valign;
+ int valign_offset = 0;
if (valign != TABLE_VALIGN_TOP)
{
- int height = page->params->measure_cell_height (
+ int height = page->params->ops->measure_cell_height (
page->params->aux, cell, bb[H][1] - bb[H][0]);
int extra = bb[V][1] - bb[V][0] - height;
if (extra > 0)
{
if (valign == TABLE_VALIGN_CENTER)
extra /= 2;
- bb[V][0] += extra;
+ valign_offset += extra;
}
}
|| page->n[V] - (cell->d[V][0] + 1) < page->h[V][1]
? 0
: (cell->d[V][0] - page->h[V][0]) & 1);
- page->params->draw_cell (page->params->aux, cell, color_idx,
- bb, spill, clip);
+ page->params->ops->draw_cell (page->params->aux, cell, color_idx,
+ bb, valign_offset, spill, clip);
}
/* Draws the cells of PAGE indicated in BB. */
int ofs[TABLE_N_AXES], int bb[TABLE_N_AXES][2])
{
for (int y = bb[V][0]; y < bb[V][1]; y++)
- for (int x = bb[H][0]; x < bb[H][1]; )
+ for (int x = bb[H][0]; x < bb[H][1];)
if (!is_rule (x) && !is_rule (y))
{
struct table_cell cell;
being broken have a better internal breakpoint than the exact
number of pixels available, which might look bad e.g. because
it breaks in the middle of a line of text. */
- if (axis == TABLE_VERT && page->params->adjust_break)
- for (int x = 0; x < page->n[H]; )
+ if (axis == TABLE_VERT && page->params->ops->adjust_break)
+ for (int x = 0; x < page->n[H];)
{
struct table_cell cell;
render_get_cell (page, x, z, &cell);
int w = joined_width (page, H, cell.d[H][0], cell.d[H][1]);
- int better_pixel = page->params->adjust_break (
+ int better_pixel = page->params->ops->adjust_break (
page->params->aux, &cell, w, pixel);
x = cell.d[H][1];
struct render_pager
{
const struct render_params *params;
+ double scale;
- struct render_page **pages;
- size_t n_pages, allocated_pages;
+ /* An array of "render_page"s to be rendered, in order, vertically. There
+ may be up to 5 pages, for the pivot table's title, layers, body,
+ captions, and footnotes. */
+ struct render_page *pages[5];
+ size_t n_pages;
size_t cur_page;
struct render_break x_break;
struct render_break y_break;
};
-static const struct render_page *
+static void
render_pager_add_table (struct render_pager *p, struct table *table,
int min_width)
{
- if (p->n_pages >= p->allocated_pages)
- p->pages = x2nrealloc (p->pages, &p->allocated_pages, sizeof *p->pages);
-
- struct render_page *page = render_page_create (p->params, table, min_width);
- p->pages[p->n_pages++] = page;
- return page;
+ if (table)
+ p->pages[p->n_pages++] = render_page_create (p->params, table, min_width);
}
static void
render_break_init_empty (&p->y_break);
}
-static void
-add_footnote_page (struct render_pager *p, const struct table_item *item)
+/* Creates and returns a new render_pager for rendering PT on the device
+ with the given PARAMS. */
+struct render_pager *
+render_pager_create (const struct render_params *params,
+ const struct pivot_table *pt,
+ const size_t *layer_indexes)
{
- const struct footnote **f;
- size_t n_footnotes = table_collect_footnotes (item, &f);
- if (!n_footnotes)
- return;
-
- struct tab_table *t = tab_create (1, n_footnotes, 0, 0, 0, 0);
- for (size_t i = 0; i < n_footnotes; i++)
+ if (!layer_indexes)
+ layer_indexes = pt->current_layer;
+
+ struct table *title, *layers, *body, *caption, *footnotes;
+ pivot_output (pt, layer_indexes, params->printing,
+ &title, &layers, &body, &caption, &footnotes, NULL, NULL);
+
+ /* Figure out the width of the body of the table. Use this to determine the
+ base scale. */
+ struct render_page *body_page = render_page_create (params, body, 0);
+ int body_width = table_width (body_page, H);
+ double scale = 1.0;
+ if (body_width > params->size[H])
{
- tab_text_format (t, 0, i, TAB_LEFT, "%s. %s",
- f[i]->marker, f[i]->content);
- if (f[i]->style)
- tab_add_style (t, 0, i, f[i]->style);
+ if (pt->look->shrink_to_fit[H] && params->ops->scale)
+ scale = params->size[H] / (double) body_width;
+ else
+ {
+ struct render_break b;
+ render_break_init (&b, render_page_ref (body_page), H);
+ struct render_page *subpage
+ = render_break_next (&b, params->size[H]);
+ body_width = subpage ? subpage->cp[H][2 * subpage->n[H] + 1] : 0;
+ render_page_unref (subpage);
+ render_break_destroy (&b);
+ }
}
- render_pager_add_table (p, &t->table, 0);
-
- free (f);
-}
-
-static void
-add_text_page (struct render_pager *p, const struct table_item_text *t,
- int min_width)
-{
- if (!t)
- return;
-
- struct tab_table *tab = tab_create (1, 1, 0, 0, 0, 0);
- tab_text (tab, 0, 0, 0, t->content);
- for (size_t i = 0; i < t->n_footnotes; i++)
- tab_add_footnote (tab, 0, 0, t->footnotes[i]);
- if (t->style)
- tab->styles[0] = area_style_clone (tab->container, t->style);
- render_pager_add_table (p, &tab->table, min_width);
-}
-static void
-add_layers_page (struct render_pager *p,
- const struct table_item_layers *layers, int min_width)
-{
- if (!layers)
- return;
-
- struct tab_table *tab = tab_create (1, layers->n_layers, 0, 0, 0, 0);
- for (size_t i = 0; i < layers->n_layers; i++)
+ /* Create the pager. */
+ struct render_pager *p = xmalloc (sizeof *p);
+ *p = (struct render_pager) { .params = params, .scale = scale };
+ render_pager_add_table (p, title, body_width);
+ render_pager_add_table (p, layers, body_width);
+ p->pages[p->n_pages++] = body_page;
+ render_pager_add_table (p, caption, 0);
+ render_pager_add_table (p, footnotes, 0);
+ assert (p->n_pages <= sizeof p->pages / sizeof *p->pages);
+
+ /* If we're shrinking tables to fit the page length, then adjust the scale
+ factor.
+
+ XXX This will sometimes shrink more than needed, because adjusting the
+ scale factor allows for cells to be "wider", which means that sometimes
+ they won't break across as much vertical space, thus shrinking the table
+ vertically more than the scale would imply. Shrinking only as much as
+ necessary would require an iterative search. */
+ if (pt->look->shrink_to_fit[V] && params->ops->scale)
{
- const struct table_item_layer *layer = &layers->layers[i];
- tab_text (tab, 0, i, 0, layer->content);
- for (size_t j = 0; j < layer->n_footnotes; j++)
- tab_add_footnote (tab, 0, i, layer->footnotes[j]);
+ int total_height = 0;
+ for (size_t i = 0; i < p->n_pages; i++)
+ total_height += table_width (p->pages[i], V);
+ if (total_height * p->scale >= params->size[V])
+ p->scale *= params->size[V] / (double) total_height;
}
- if (layers->style)
- tab->styles[0] = area_style_clone (tab->container, layers->style);
- render_pager_add_table (p, &tab->table, min_width);
-}
-
-/* Creates and returns a new render_pager for rendering TABLE_ITEM on the
- device with the given PARAMS. */
-struct render_pager *
-render_pager_create (const struct render_params *params,
- const struct table_item *table_item)
-{
- const struct table *table = table_item_get_table (table_item);
-
- struct render_pager *p = xzalloc (sizeof *p);
- p->params = params;
-
- struct render_page *page = render_page_create (params, table_ref (table), 0);
- struct render_break b;
- render_break_init (&b, page, H);
- struct render_page *subpage = render_break_next (&b, p->params->size[H]);
- int title_width = subpage ? subpage->cp[H][2 * subpage->n[H] + 1] : 0;
- render_page_unref (subpage);
- render_break_destroy (&b);
-
- /* Title. */
- add_text_page (p, table_item_get_title (table_item), title_width);
-
- /* Layers. */
- add_layers_page (p, table_item_get_layers (table_item), title_width);
-
- /* Body. */
- render_pager_add_table (p, table_ref (table_item_get_table (table_item)), 0);
-
- /* Caption. */
- add_text_page (p, table_item_get_caption (table_item), 0);
-
- /* Footnotes. */
- add_footnote_page (p, table_item);
render_pager_start_page (p);
render_break_destroy (&p->y_break);
for (size_t i = 0; i < p->n_pages; i++)
render_page_unref (p->pages[i]);
- free (p->pages);
free (p);
}
}
}
else
render_break_init (
- &p->y_break, render_break_next (&p->x_break, p->params->size[H]), V);
+ &p->y_break, render_break_next (&p->x_break,
+ p->params->size[H] / p->scale), V);
}
return true;
}
int
render_pager_draw_next (struct render_pager *p, int space)
{
+ if (p->scale != 1.0)
+ {
+ p->params->ops->scale (p->params->aux, p->scale);
+ space /= p->scale;
+ }
+
int ofs[TABLE_N_AXES] = { 0, 0 };
size_t start_page = SIZE_MAX;
ofs[V] += render_page_get_size (page, V);
render_page_unref (page);
}
+
+ if (p->scale != 1.0)
+ ofs[V] *= p->scale;
+
return ofs[V];
}
};
if (!page->h[a][0] || z0 > page->h[a][0] || p0)
- for (int z = 0; z < page->n[b]; )
+ for (int z = 0; z < page->n[b];)
{
int d[TABLE_N_AXES];
d[a] = z0;
}
if (!page->h[a][1] || z1 < page->n[a] - page->h[a][1] || p1)
- for (int z = 0; z < page->n[b]; )
+ for (int z = 0; z < page->n[b];)
{
int d[TABLE_N_AXES];
d[a] = z1 - 1;
insert_overflow (struct render_page_selection *s,
const struct table_cell *cell)
{
- struct render_overflow *of = xzalloc (sizeof *of);
+ struct render_overflow *of = XZALLOC (struct render_overflow);
cell_to_subpage (s, cell, of->d);
hmap_insert (&s->subpage->overflows, &of->node,
hash_cell (of->d[H], of->d[V]));
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