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|
/* $OpenBSD: grid-reader.c,v 1.8 2024/10/25 15:00:18 nicm Exp $ */
/*
* Copyright (c) 2020 Anindya Mukherjee <anindya49@hotmail.com>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF MIND, USE, DATA OR PROFITS, WHETHER
* IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING
* OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include "tmux.h"
#include <string.h>
/* Initialise virtual cursor. */
void
grid_reader_start(struct grid_reader *gr, struct grid *gd, u_int cx, u_int cy)
{
gr->gd = gd;
gr->cx = cx;
gr->cy = cy;
}
/* Get cursor position from reader. */
void
grid_reader_get_cursor(struct grid_reader *gr, u_int *cx, u_int *cy)
{
*cx = gr->cx;
*cy = gr->cy;
}
/* Get length of line containing the cursor. */
u_int
grid_reader_line_length(struct grid_reader *gr)
{
return (grid_line_length(gr->gd, gr->cy));
}
/* Move cursor forward one position. */
void
grid_reader_cursor_right(struct grid_reader *gr, int wrap, int all)
{
u_int px;
struct grid_cell gc;
if (all)
px = gr->gd->sx;
else
px = grid_reader_line_length(gr);
if (wrap && gr->cx >= px && gr->cy < gr->gd->hsize + gr->gd->sy - 1) {
grid_reader_cursor_start_of_line(gr, 0);
grid_reader_cursor_down(gr);
} else if (gr->cx < px) {
gr->cx++;
while (gr->cx < px) {
grid_get_cell(gr->gd, gr->cx, gr->cy, &gc);
if (~gc.flags & GRID_FLAG_PADDING)
break;
gr->cx++;
}
}
}
/* Move cursor back one position. */
void
grid_reader_cursor_left(struct grid_reader *gr, int wrap)
{
struct grid_cell gc;
while (gr->cx > 0) {
grid_get_cell(gr->gd, gr->cx, gr->cy, &gc);
if (~gc.flags & GRID_FLAG_PADDING)
break;
gr->cx--;
}
if (gr->cx == 0 && gr->cy > 0 &&
(wrap ||
grid_get_line(gr->gd, gr->cy - 1)->flags & GRID_LINE_WRAPPED)) {
grid_reader_cursor_up(gr);
grid_reader_cursor_end_of_line(gr, 0, 0);
} else if (gr->cx > 0)
gr->cx--;
}
/* Move cursor down one line. */
void
grid_reader_cursor_down(struct grid_reader *gr)
{
struct grid_cell gc;
if (gr->cy < gr->gd->hsize + gr->gd->sy - 1)
gr->cy++;
while (gr->cx > 0) {
grid_get_cell(gr->gd, gr->cx, gr->cy, &gc);
if (~gc.flags & GRID_FLAG_PADDING)
break;
gr->cx--;
}
}
/* Move cursor up one line. */
void
grid_reader_cursor_up(struct grid_reader *gr)
{
struct grid_cell gc;
if (gr->cy > 0)
gr->cy--;
while (gr->cx > 0) {
grid_get_cell(gr->gd, gr->cx, gr->cy, &gc);
if (~gc.flags & GRID_FLAG_PADDING)
break;
gr->cx--;
}
}
/* Move cursor to the start of the line. */
void
grid_reader_cursor_start_of_line(struct grid_reader *gr, int wrap)
{
if (wrap) {
while (gr->cy > 0 &&
grid_get_line(gr->gd, gr->cy - 1)->flags &
GRID_LINE_WRAPPED)
gr->cy--;
}
gr->cx = 0;
}
/* Move cursor to the end of the line. */
void
grid_reader_cursor_end_of_line(struct grid_reader *gr, int wrap, int all)
{
u_int yy;
if (wrap) {
yy = gr->gd->hsize + gr->gd->sy - 1;
while (gr->cy < yy && grid_get_line(gr->gd, gr->cy)->flags &
GRID_LINE_WRAPPED)
gr->cy++;
}
if (all)
gr->cx = gr->gd->sx;
else
gr->cx = grid_reader_line_length(gr);
}
/* Handle line wrapping while moving the cursor. */
static int
grid_reader_handle_wrap(struct grid_reader *gr, u_int *xx, u_int *yy)
{
/*
* Make sure the cursor lies within the grid reader's bounding area,
* wrapping to the next line as necessary. Return zero if the cursor
* would wrap past the bottom of the grid.
*/
while (gr->cx > *xx) {
if (gr->cy == *yy)
return (0);
grid_reader_cursor_start_of_line(gr, 0);
grid_reader_cursor_down(gr);
if (grid_get_line(gr->gd, gr->cy)->flags & GRID_LINE_WRAPPED)
*xx = gr->gd->sx - 1;
else
*xx = grid_reader_line_length(gr);
}
return (1);
}
/* Check if character under cursor is in set. */
int
grid_reader_in_set(struct grid_reader *gr, const char *set)
{
struct grid_cell gc;
grid_get_cell(gr->gd, gr->cx, gr->cy, &gc);
if (gc.flags & GRID_FLAG_PADDING)
return (0);
return (utf8_cstrhas(set, &gc.data));
}
/* Move cursor to the start of the next word. */
void
grid_reader_cursor_next_word(struct grid_reader *gr, const char *separators)
{
u_int xx, yy;
/* Do not break up wrapped words. */
if (grid_get_line(gr->gd, gr->cy)->flags & GRID_LINE_WRAPPED)
xx = gr->gd->sx - 1;
else
xx = grid_reader_line_length(gr);
yy = gr->gd->hsize + gr->gd->sy - 1;
/*
* When navigating via spaces (for example with next-space) separators
* should be empty.
*
* If we started on a separator that is not whitespace, skip over
* subsequent separators that are not whitespace. Otherwise, if we
* started on a non-whitespace character, skip over subsequent
* characters that are neither whitespace nor separators. Then, skip
* over whitespace (if any) until the next non-whitespace character.
*/
if (!grid_reader_handle_wrap(gr, &xx, &yy))
return;
if (!grid_reader_in_set(gr, WHITESPACE)) {
if (grid_reader_in_set(gr, separators)) {
do
gr->cx++;
while (grid_reader_handle_wrap(gr, &xx, &yy) &&
grid_reader_in_set(gr, separators) &&
!grid_reader_in_set(gr, WHITESPACE));
} else {
do
gr->cx++;
while (grid_reader_handle_wrap(gr, &xx, &yy) &&
!(grid_reader_in_set(gr, separators) ||
grid_reader_in_set(gr, WHITESPACE)));
}
}
while (grid_reader_handle_wrap(gr, &xx, &yy) &&
grid_reader_in_set(gr, WHITESPACE))
gr->cx++;
}
/* Move cursor to the end of the next word. */
void
grid_reader_cursor_next_word_end(struct grid_reader *gr, const char *separators)
{
u_int xx, yy;
/* Do not break up wrapped words. */
if (grid_get_line(gr->gd, gr->cy)->flags & GRID_LINE_WRAPPED)
xx = gr->gd->sx - 1;
else
xx = grid_reader_line_length(gr);
yy = gr->gd->hsize + gr->gd->sy - 1;
/*
* When navigating via spaces (for example with next-space), separators
* should be empty in both modes.
*
* If we started on a whitespace, move until reaching the first
* non-whitespace character. If that character is a separator, treat
* subsequent separators as a word, and continue moving until the first
* non-separator. Otherwise, continue moving until the first separator
* or whitespace.
*/
while (grid_reader_handle_wrap(gr, &xx, &yy)) {
if (grid_reader_in_set(gr, WHITESPACE))
gr->cx++;
else if (grid_reader_in_set(gr, separators)) {
do
gr->cx++;
while (grid_reader_handle_wrap(gr, &xx, &yy) &&
grid_reader_in_set(gr, separators) &&
!grid_reader_in_set(gr, WHITESPACE));
return;
} else {
do
gr->cx++;
while (grid_reader_handle_wrap(gr, &xx, &yy) &&
!(grid_reader_in_set(gr, WHITESPACE) ||
grid_reader_in_set(gr, separators)));
return;
}
}
}
/* Move to the previous place where a word begins. */
void
grid_reader_cursor_previous_word(struct grid_reader *gr, const char *separators,
int already, int stop_at_eol)
{
int oldx, oldy, at_eol, word_is_letters;
/* Move back to the previous word character. */
if (already || grid_reader_in_set(gr, WHITESPACE)) {
for (;;) {
if (gr->cx > 0) {
gr->cx--;
if (!grid_reader_in_set(gr, WHITESPACE)) {
word_is_letters =
!grid_reader_in_set(gr, separators);
break;
}
} else {
if (gr->cy == 0)
return;
grid_reader_cursor_up(gr);
grid_reader_cursor_end_of_line(gr, 0, 0);
/* Stop if separator at EOL. */
if (stop_at_eol && gr->cx > 0) {
oldx = gr->cx;
gr->cx--;
at_eol = grid_reader_in_set(gr,
WHITESPACE);
gr->cx = oldx;
if (at_eol) {
word_is_letters = 0;
break;
}
}
}
}
} else
word_is_letters = !grid_reader_in_set(gr, separators);
/* Move back to the beginning of this word. */
do {
oldx = gr->cx;
oldy = gr->cy;
if (gr->cx == 0) {
if (gr->cy == 0 ||
(~grid_get_line(gr->gd, gr->cy - 1)->flags &
GRID_LINE_WRAPPED))
break;
grid_reader_cursor_up(gr);
grid_reader_cursor_end_of_line(gr, 0, 1);
}
if (gr->cx > 0)
gr->cx--;
} while (!grid_reader_in_set(gr, WHITESPACE) &&
word_is_letters != grid_reader_in_set(gr, separators));
gr->cx = oldx;
gr->cy = oldy;
}
/* Compare grid cell to UTF-8 data. Return 1 if equal, 0 if not. */
static int
grid_reader_cell_equals_data(const struct grid_cell *gc,
const struct utf8_data *ud)
{
if (gc->flags & GRID_FLAG_PADDING)
return (0);
if (gc->flags & GRID_FLAG_TAB && ud->size == 1 && *ud->data == '\t')
return (1);
if (gc->data.size != ud->size)
return (0);
return (memcmp(gc->data.data, ud->data, gc->data.size) == 0);
}
/* Jump forward to character. */
int
grid_reader_cursor_jump(struct grid_reader *gr, const struct utf8_data *jc)
{
struct grid_cell gc;
u_int px, py, xx, yy;
px = gr->cx;
yy = gr->gd->hsize + gr->gd->sy - 1;
for (py = gr->cy; py <= yy; py++) {
xx = grid_line_length(gr->gd, py);
while (px < xx) {
grid_get_cell(gr->gd, px, py, &gc);
if (grid_reader_cell_equals_data(&gc, jc)) {
gr->cx = px;
gr->cy = py;
return (1);
}
px++;
}
if (py == yy ||
!(grid_get_line(gr->gd, py)->flags & GRID_LINE_WRAPPED))
return (0);
px = 0;
}
return (0);
}
/* Jump back to character. */
int
grid_reader_cursor_jump_back(struct grid_reader *gr, const struct utf8_data *jc)
{
struct grid_cell gc;
u_int px, py, xx;
xx = gr->cx + 1;
for (py = gr->cy + 1; py > 0; py--) {
for (px = xx; px > 0; px--) {
grid_get_cell(gr->gd, px - 1, py - 1, &gc);
if (grid_reader_cell_equals_data(&gc, jc)) {
gr->cx = px - 1;
gr->cy = py - 1;
return (1);
}
}
if (py == 1 ||
!(grid_get_line(gr->gd, py - 2)->flags & GRID_LINE_WRAPPED))
return (0);
xx = grid_line_length(gr->gd, py - 2);
}
return (0);
}
/* Jump back to the first non-blank character of the line. */
void
grid_reader_cursor_back_to_indentation(struct grid_reader *gr)
{
struct grid_cell gc;
u_int px, py, xx, yy, oldx, oldy;
yy = gr->gd->hsize + gr->gd->sy - 1;
oldx = gr->cx;
oldy = gr->cy;
grid_reader_cursor_start_of_line(gr, 1);
for (py = gr->cy; py <= yy; py++) {
xx = grid_line_length(gr->gd, py);
for (px = 0; px < xx; px++) {
grid_get_cell(gr->gd, px, py, &gc);
if (gc.data.size != 1 || *gc.data.data != ' ') {
gr->cx = px;
gr->cy = py;
return;
}
}
if (~grid_get_line(gr->gd, py)->flags & GRID_LINE_WRAPPED)
break;
}
gr->cx = oldx;
gr->cy = oldy;
}
|