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b37399304f
updates between clock/#() changes and doesn't require manual status-interval 0 when no updates are occuring.
437 lines
9.3 KiB
C
437 lines
9.3 KiB
C
/* $Id: grid.c,v 1.8 2009-02-10 00:18:06 nicm Exp $ */
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/*
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* Copyright (c) 2008 Nicholas Marriott <nicm@users.sourceforge.net>
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*
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* Permission to use, copy, modify, and distribute this software for any
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* purpose with or without fee is hereby granted, provided that the above
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* copyright notice and this permission notice appear in all copies.
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*
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* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
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* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
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* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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* WHATSOEVER RESULTING FROM LOSS OF MIND, USE, DATA OR PROFITS, WHETHER
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* IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING
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* OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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*/
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#include <sys/types.h>
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#include <string.h>
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#include "tmux.h"
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/*
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* Grid data. This is the basic data structure that represents what is shown on
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* screen.
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*
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* A grid is a grid of cells (struct grid_cell). Lines are not allocated until
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* cells in that line are written to. The grid is split into history and
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* viewable data with the history starting at row (line) 0 and extending to
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* (hsize - 1); from hsize to hsize + (sy - 1) is the viewable data. All
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* functions in this file work on absolute coordinates, grid-view.c has
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* functions which work on the screen data.
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*/
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/* Default grid cell data. */
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const struct grid_cell grid_default_cell = { ' ', 0, 0, 8, 8 };
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#define grid_put_cell(gd, px, py, gc) do { \
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memcpy(&gd->data[py][px], gc, sizeof gd->data[py][px]); \
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} while (0)
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int grid_check_x(struct grid_data *, u_int);
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int grid_check_y(struct grid_data *, u_int);
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#ifdef DEBUG
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int
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grid_check_x(struct grid_data *gd, u_int px)
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{
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if ((px) >= (gd)->sx)
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log_fatalx("x out of range: %u", px);
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return (0);
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}
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int
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grid_check_y(struct grid_data *gd, u_int py)
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{
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if ((py) >= (gd)->hsize + (gd)->sy)
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log_fatalx("y out of range: %u", py);
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return (0);
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}
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#else
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int
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grid_check_x(struct grid_data *gd, u_int px)
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{
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if ((px) >= (gd)->sx) {
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log_debug("x out of range: %u", px);
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return (-1);
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}
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return (0);
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}
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int
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grid_check_y(struct grid_data *gd, u_int py)
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{
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if ((py) >= (gd)->hsize + (gd)->sy) {
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log_debug("y out of range: %u", py);
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return (-1);
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}
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return (0);
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}
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#endif
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/* Create a new grid. */
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struct grid_data *
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grid_create(u_int sx, u_int sy, u_int hlimit)
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{
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struct grid_data *gd;
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gd = xmalloc(sizeof *gd);
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gd->sx = sx;
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gd->sy = sy;
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gd->hsize = 0;
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gd->hlimit = hlimit;
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gd->size = xcalloc(gd->sy, sizeof *gd->size);
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gd->data = xcalloc(gd->sy, sizeof *gd->data);
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return (gd);
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}
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/* Destroy grid. */
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void
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grid_destroy(struct grid_data *gd)
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{
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u_int yy;
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for (yy = 0; yy < gd->hsize + gd->sy - 1; yy++) {
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if (gd->data[yy] != NULL)
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xfree(gd->data[yy]);
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}
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if (gd->data != NULL)
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xfree(gd->data);
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if (gd->size != NULL)
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xfree(gd->size);
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xfree(gd);
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}
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/* Compare grids. */
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int
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grid_compare(struct grid_data *ga, struct grid_data *gb)
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{
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struct grid_cell *gca, *gcb;
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u_int xx, yy;
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if (ga->sx != gb->sx || ga->sy != ga->sy)
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return (1);
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for (yy = 0; yy < ga->sy; yy++) {
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if (ga->size[yy] != gb->size[yy])
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return (1);
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for (xx = 0; xx < ga->sx; xx++) {
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gca = &ga->data[yy][xx];
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gcb = &gb->data[yy][xx];
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if (memcmp(gca, gcb, sizeof (struct grid_cell)) != 0)
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return (1);
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}
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}
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return (0);
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}
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/* Scroll a line into the history. */
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void
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grid_scroll_line(struct grid_data *gd)
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{
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u_int yy;
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GRID_DEBUG(gd, "");
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if (gd->hsize >= gd->hlimit - 1) {
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/* If the limit is hit, free the bottom 10% and shift up. */
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yy = gd->hlimit / 10;
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if (yy < 1)
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yy = 1;
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grid_move_lines(gd, 0, yy, gd->hsize + gd->sy - yy);
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gd->hsize -= yy;
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}
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yy = gd->hsize + gd->sy;
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gd->size = xrealloc(gd->size, yy + 1, sizeof *gd->size);
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gd->data = xrealloc(gd->data, yy + 1, sizeof *gd->data);
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gd->data[yy] = NULL;
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gd->size[yy] = 0;
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gd->hsize++;
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}
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/* Reduce line to fit to cell. */
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void
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grid_reduce_line(struct grid_data *gd, u_int py, u_int sx)
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{
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if (sx >= gd->size[py])
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return;
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gd->data[py] = xrealloc(gd->data[py], sx, sizeof **gd->data);
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gd->size[py] = sx;
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}
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/* Expand line to fit to cell. */
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void
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grid_expand_line(struct grid_data *gd, u_int py, u_int sx)
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{
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u_int xx;
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if (sx <= gd->size[py])
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return;
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gd->data[py] = xrealloc(gd->data[py], sx, sizeof **gd->data);
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for (xx = gd->size[py]; xx < sx; xx++)
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grid_put_cell(gd, xx, py, &grid_default_cell);
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gd->size[py] = sx;
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}
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/* Get cell for reading. */
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const struct grid_cell *
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grid_peek_cell(struct grid_data *gd, u_int px, u_int py)
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{
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if (grid_check_x(gd, px) != 0)
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return (&grid_default_cell);
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if (grid_check_y(gd, py) != 0)
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return (&grid_default_cell);
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if (px >= gd->size[py])
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return (&grid_default_cell);
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return (&gd->data[py][px]);
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}
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/* Get cell at relative position (for writing). */
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struct grid_cell *
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grid_get_cell(struct grid_data *gd, u_int px, u_int py)
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{
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if (grid_check_x(gd, px) != 0)
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return (NULL);
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if (grid_check_y(gd, py) != 0)
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return (NULL);
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grid_expand_line(gd, py, px + 1);
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return (&gd->data[py][px]);
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}
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/* Set cell at relative position. */
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void
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grid_set_cell(
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struct grid_data *gd, u_int px, u_int py, const struct grid_cell *gc)
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{
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if (grid_check_x(gd, px) != 0)
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return;
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if (grid_check_y(gd, py) != 0)
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return;
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grid_expand_line(gd, py, px + 1);
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grid_put_cell(gd, px, py, gc);
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}
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/*
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* Clear area. Note this is different from a fill as it just omits unallocated
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* cells.
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*/
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void
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grid_clear(struct grid_data *gd, u_int px, u_int py, u_int nx, u_int ny)
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{
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u_int xx, yy;
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GRID_DEBUG(gd, "px=%u, py=%u, nx=%u, ny=%u", px, py, nx, ny);
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if (nx == 0 || ny == 0)
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return;
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if (px == 0 && nx == gd->sx) {
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grid_clear_lines(gd, py, ny);
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return;
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}
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if (grid_check_x(gd, px) != 0)
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return;
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if (grid_check_x(gd, px + nx - 1) != 0)
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return;
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if (grid_check_y(gd, py) != 0)
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return;
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if (grid_check_y(gd, py + ny - 1) != 0)
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return;
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for (yy = py; yy < py + ny; yy++) {
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for (xx = px; xx < px + nx; xx++) {
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if (xx >= gd->size[yy])
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break;
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grid_put_cell(gd, xx, yy, &grid_default_cell);
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}
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}
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}
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/* Fill area. */
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void
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grid_fill(struct grid_data *gd,
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const struct grid_cell *gc, u_int px, u_int py, u_int nx, u_int ny)
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{
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u_int xx, yy;
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GRID_DEBUG(gd, "px=%u, py=%u, nx=%u, ny=%u", px, py, nx, ny);
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if (nx == 0 || ny == 0)
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return;
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if (grid_check_x(gd, px) != 0)
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return;
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if (grid_check_x(gd, px + nx - 1) != 0)
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return;
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if (grid_check_y(gd, py) != 0)
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return;
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if (grid_check_y(gd, py + ny - 1) != 0)
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return;
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for (yy = py; yy < py + ny; yy++) {
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for (xx = px; xx < px + nx; xx++) {
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grid_expand_line(gd, yy, xx + 1);
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grid_put_cell(gd, xx, py, gc);
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}
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}
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}
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/* Clear lines. This just frees and truncates the lines. */
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void
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grid_clear_lines(struct grid_data *gd, u_int py, u_int ny)
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{
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u_int yy;
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GRID_DEBUG(gd, "py=%u, ny=%u", py, ny);
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if (ny == 0)
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return;
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if (grid_check_y(gd, py) != 0)
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return;
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if (grid_check_y(gd, py + ny - 1) != 0)
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return;
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for (yy = py; yy < py + ny; yy++) {
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if (gd->data[yy] != NULL) {
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xfree(gd->data[yy]);
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gd->data[yy] = NULL;
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gd->size[yy] = 0;
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}
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}
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}
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/* Fill a group of lines. */
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void
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grid_fill_lines(
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struct grid_data *gd, const struct grid_cell *gc, u_int py, u_int ny)
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{
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grid_fill(gd, gc, 0, py, gd->sx, ny);
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}
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/* Move a group of lines. */
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void
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grid_move_lines(struct grid_data *gd, u_int dy, u_int py, u_int ny)
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{
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u_int yy;
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GRID_DEBUG(gd, "dy=%u, py=%u, ny=%u", dy, py, ny);
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if (ny == 0 || py == dy)
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return;
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if (grid_check_y(gd, py) != 0)
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return;
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if (grid_check_y(gd, py + ny - 1) != 0)
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return;
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if (grid_check_y(gd, dy) != 0)
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return;
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if (grid_check_y(gd, dy + ny - 1) != 0)
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return;
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/* Free any lines which are being replaced. */
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for (yy = dy; yy < dy + ny; yy++) {
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if (yy >= py && yy < py + ny)
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continue;
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grid_clear_lines(gd, yy, 1);
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}
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memmove(&gd->data[dy], &gd->data[py], ny * (sizeof *gd->data));
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memmove(&gd->size[dy], &gd->size[py], ny * (sizeof *gd->size));
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/* Wipe any lines that have been moved (without freeing them). */
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for (yy = py; yy < py + ny; yy++) {
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if (yy >= dy && yy < dy + ny)
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continue;
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gd->data[yy] = NULL;
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gd->size[yy] = 0;
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}
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}
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/* Clear a group of cells. */
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void
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grid_clear_cells(struct grid_data *gd, u_int px, u_int py, u_int nx)
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{
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u_int xx;
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GRID_DEBUG(gd, "px=%u, py=%u, nx=%u", px, py, nx);
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if (nx == 0)
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return;
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if (grid_check_x(gd, px) != 0)
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return;
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if (grid_check_x(gd, px + nx - 1) != 0)
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return;
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if (grid_check_y(gd, py) != 0)
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return;
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for (xx = px; xx < px + nx; xx++) {
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if (xx >= gd->size[py])
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break;
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grid_put_cell(gd, xx, py, &grid_default_cell);
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}
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}
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/* Move a group of cells. */
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void
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grid_move_cells(struct grid_data *gd, u_int dx, u_int px, u_int py, u_int nx)
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{
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u_int xx;
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GRID_DEBUG(gd, "dx=%u, px=%u, py=%u, nx=%u", dx, px, py, nx);
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if (nx == 0 || px == dx)
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return;
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if (grid_check_x(gd, px) != 0)
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return;
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if (grid_check_x(gd, px + nx - 1) != 0)
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return;
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if (grid_check_x(gd, dx + nx - 1) != 0)
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return;
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if (grid_check_y(gd, py) != 0)
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return;
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grid_expand_line(gd, py, px + nx);
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grid_expand_line(gd, py, dx + nx);
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memmove(&gd->data[py][dx], &gd->data[py][px], nx * (sizeof **gd->data));
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/* Wipe any cells that have been moved. */
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for (xx = px; xx < px + nx; xx++) {
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if (xx >= dx && xx < dx + nx)
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continue;
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memcpy(
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&gd->data[py][xx], &grid_default_cell, sizeof **gd->data);
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}
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}
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