#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "match.h"
#include "tty_interface.h"
#include "../config.h"
static int isprint_unicode(char c) {
return isprint(c) || c & (1 << 7);
}
static int is_boundary(char c) {
return ~c & (1 << 7) || c & (1 << 6);
}
static void clear(tty_interface_t *state) {
tty_t *tty = state->tty;
tty_setcol(tty, 0);
size_t line = 0;
while (line++ < state->options->num_lines) {
tty_newline(tty);
}
tty_clearline(tty);
if (state->options->num_lines > 0) {
tty_moveup(tty, line - 1);
}
tty_flush(tty);
}
static void draw_match(tty_interface_t *state, const char *choice, int selected) {
tty_t *tty = state->tty;
options_t *options = state->options;
char *search = state->last_search;
int n = strlen(search);
size_t positions[n + 1];
for (int i = 0; i < n + 1; i++)
positions[i] = -1;
score_t score = match_positions(search, choice, &positions[0]);
if (options->show_scores) {
if (score == SCORE_MIN) {
tty_printf(tty, "( ) ");
} else {
tty_printf(tty, "(%5.2f) ", score);
}
}
if (selected)
#ifdef TTY_SELECTION_UNDERLINE
tty_setunderline(tty);
#else
tty_setinvert(tty);
#endif
tty_setnowrap(tty);
for (size_t i = 0, p = 0; choice[i] != '\0'; i++) {
if (positions[p] == i) {
tty_setfg(tty, TTY_COLOR_HIGHLIGHT);
p++;
} else {
tty_setfg(tty, TTY_COLOR_NORMAL);
}
if (choice[i] == '\n') {
tty_putc(tty, ' ');
} else {
tty_printf(tty, "%c", choice[i]);
}
}
tty_setwrap(tty);
tty_setnormal(tty);
}
static void draw(tty_interface_t *state) {
tty_t *tty = state->tty;
choices_t *choices = state->choices;
options_t *options = state->options;
unsigned int num_lines = options->num_lines;
size_t start = 0;
size_t current_selection = choices->selection;
if (current_selection + options->scrolloff >= num_lines) {
start = current_selection + options->scrolloff - num_lines + 1;
size_t available = choices_available(choices);
if (start + num_lines >= available && available > 0) {
start = available - num_lines;
}
}
tty_setcol(tty, 0);
tty_printf(tty, "%s%s", options->prompt, state->search);
tty_clearline(tty);
for (size_t i = start; i < start + num_lines; i++) {
tty_printf(tty, "\n");
tty_clearline(tty);
const char *choice = choices_get(choices, i);
if (choice) {
draw_match(state, choice, i == choices->selection);
}
}
if (num_lines > 0) {
tty_moveup(tty, num_lines);
}
tty_setcol(tty, 0);
fputs(options->prompt, tty->fout);
for (size_t i = 0; i < state->cursor; i++)
fputc(state->search[i], tty->fout);
tty_flush(tty);
}
static void update_search(tty_interface_t *state) {
choices_search(state->choices, state->search);
strcpy(state->last_search, state->search);
}
static void update_state(tty_interface_t *state) {
if (strcmp(state->last_search, state->search)) {
update_search(state);
draw(state);
}
}
static void action_emit(tty_interface_t *state) {
update_state(state);
/* Reset the tty as close as possible to the previous state */
clear(state);
/* ttyout should be flushed before outputting on stdout */
tty_close(state->tty);
const char *selection = choices_get(state->choices, state->choices->selection);
if (selection) {
/* output the selected result */
printf("%s\n", selection);
} else {
/* No match, output the query instead */
printf("%s\n", state->search);
}
state->exit = EXIT_SUCCESS;
}
static void action_del_char(tty_interface_t *state) {
size_t length = strlen(state->search);
if (state->cursor == 0) {
return;
}
size_t original_cursor = state->cursor;
do {
state->cursor--;
} while (!is_boundary(state->search[state->cursor]) && state->cursor);
memmove(&state->search[state->cursor], &state->search[original_cursor], length - original_cursor + 1);
}
static void action_del_word(tty_interface_t *state) {
size_t original_cursor = state->cursor;
size_t cursor = state->cursor;
while (cursor && isspace(state->search[cursor - 1]))
cursor--;
while (cursor && !isspace(state->search[cursor - 1]))
cursor--;
memmove(&state->search[cursor], &state->search[original_cursor], strlen(state->search) - original_cursor + 1);
state->cursor = cursor;
}
static void action_del_all(tty_interface_t *state) {
memmove(state->search, &state->search[state->cursor], strlen(state->search) - state->cursor + 1);
state->cursor = 0;
}
static void action_prev(tty_interface_t *state) {
update_state(state);
choices_prev(state->choices);
}
static void action_ignore(tty_interface_t *state) {
(void)state;
}
static void action_next(tty_interface_t *state) {
update_state(state);
choices_next(state->choices);
}
static void action_left(tty_interface_t *state) {
if (state->cursor > 0) {
state->cursor--;
while (!is_boundary(state->search[state->cursor]) && state->cursor)
state->cursor--;
}
}
static void action_right(tty_interface_t *state) {
if (state->cursor < strlen(state->search)) {
state->cursor++;
while (!is_boundary(state->search[state->cursor]))
state->cursor++;
}
}
static void action_beginning(tty_interface_t *state) {
state->cursor = 0;
}
static void action_end(tty_interface_t *state) {
state->cursor = strlen(state->search);
}
static void action_pageup(tty_interface_t *state) {
update_state(state);
for (size_t i = 0; i < state->options->num_lines && state->choices->selection > 0; i++)
choices_prev(state->choices);
}
static void action_pagedown(tty_interface_t *state) {
update_state(state);
for (size_t i = 0; i < state->options->num_lines && state->choices->selection < state->choices->available - 1; i++)
choices_next(state->choices);
}
static void action_autocomplete(tty_interface_t *state) {
update_state(state);
const char *current_selection = choices_get(state->choices, state->choices->selection);
if (current_selection) {
strncpy(state->search, choices_get(state->choices, state->choices->selection), SEARCH_SIZE_MAX);
state->cursor = strlen(state->search);
}
}
static void action_exit(tty_interface_t *state) {
clear(state);
tty_close(state->tty);
state->exit = EXIT_FAILURE;
}
static void append_search(tty_interface_t *state, char ch) {
char *search = state->search;
size_t search_size = strlen(search);
if (search_size < SEARCH_SIZE_MAX) {
memmove(&search[state->cursor+1], &search[state->cursor], search_size - state->cursor + 1);
search[state->cursor] = ch;
state->cursor++;
}
}
void tty_interface_init(tty_interface_t *state, tty_t *tty, choices_t *choices, options_t *options) {
state->tty = tty;
state->choices = choices;
state->options = options;
state->ambiguous_key_pending = 0;
strcpy(state->input, "");
strcpy(state->search, "");
strcpy(state->last_search, "");
state->exit = -1;
if (options->init_search)
strncpy(state->search, options->init_search, SEARCH_SIZE_MAX);
state->cursor = strlen(state->search);
update_search(state);
}
typedef struct {
const char *key;
void (*action)(tty_interface_t *);
} keybinding_t;
#define KEY_CTRL(key) ((const char[]){((key) - ('@')), '\0'})
static const keybinding_t keybindings[] = {{"\x1b", action_exit}, /* ESC */
{"\x7f", action_del_char}, /* DEL */
{KEY_CTRL('H'), action_del_char}, /* Backspace (C-H) */
{KEY_CTRL('W'), action_del_word}, /* C-W */
{KEY_CTRL('U'), action_del_all}, /* C-U */
{KEY_CTRL('I'), action_autocomplete}, /* TAB (C-I ) */
{KEY_CTRL('C'), action_exit}, /* C-C */
{KEY_CTRL('D'), action_exit}, /* C-D */
{KEY_CTRL('G'), action_exit}, /* C-G */
{KEY_CTRL('M'), action_emit}, /* CR */
{KEY_CTRL('P'), action_prev}, /* C-P */
{KEY_CTRL('N'), action_next}, /* C-N */
{KEY_CTRL('K'), action_prev}, /* C-K */
{KEY_CTRL('J'), action_next}, /* C-J */
{KEY_CTRL('A'), action_beginning}, /* C-A */
{KEY_CTRL('E'), action_end}, /* C-E */
{"\x1bOD", action_left}, /* LEFT */
{"\x1b[D", action_left}, /* LEFT */
{"\x1bOC", action_right}, /* RIGHT */
{"\x1b[C", action_right}, /* RIGHT */
{"\x1b[1~", action_beginning}, /* HOME */
{"\x1b[H", action_beginning}, /* HOME */
{"\x1b[4~", action_end}, /* END */
{"\x1b[F", action_end}, /* END */
{"\x1b[A", action_prev}, /* UP */
{"\x1bOA", action_prev}, /* UP */
{"\x1b[B", action_next}, /* DOWN */
{"\x1bOB", action_next}, /* DOWN */
{"\x1b[5~", action_pageup},
{"\x1b[6~", action_pagedown},
{"\x1b[200~", action_ignore},
{"\x1b[201~", action_ignore},
{NULL, NULL}};
#undef KEY_CTRL
static void handle_input(tty_interface_t *state, const char *s, int handle_ambiguous_key) {
state->ambiguous_key_pending = 0;
char *input = state->input;
strcat(state->input, s);
/* Figure out if we have completed a keybinding and whether we're in the
* middle of one (both can happen, because of Esc). */
int found_keybinding = -1;
int in_middle = 0;
for (int i = 0; keybindings[i].key; i++) {
if (!strcmp(input, keybindings[i].key))
found_keybinding = i;
else if (!strncmp(input, keybindings[i].key, strlen(state->input)))
in_middle = 1;
}
/* If we have an unambiguous keybinding, run it. */
if (found_keybinding != -1 && (!in_middle || handle_ambiguous_key)) {
keybindings[found_keybinding].action(state);
strcpy(input, "");
return;
}
/* We could have a complete keybinding, or could be in the middle of one.
* We'll need to wait a few milliseconds to find out. */
if (found_keybinding != -1 && in_middle) {
state->ambiguous_key_pending = 1;
return;
}
/* Wait for more if we are in the middle of a keybinding */
if (in_middle)
return;
/* No matching keybinding, add to search */
for (int i = 0; input[i]; i++)
if (isprint_unicode(input[i]))
append_search(state, input[i]);
/* We have processed the input, so clear it */
strcpy(input, "");
}
int tty_interface_run(tty_interface_t *state) {
draw(state);
for (;;) {
do {
while(!tty_input_ready(state->tty, -1, 1)) {
/* We received a signal (probably WINCH) */
draw(state);
}
char s[2] = {tty_getchar(state->tty), '\0'};
handle_input(state, s, 0);
if (state->exit >= 0)
return state->exit;
draw(state);
} while (tty_input_ready(state->tty, state->ambiguous_key_pending ? KEYTIMEOUT : 0, 0));
if (state->ambiguous_key_pending) {
char s[1] = "";
handle_input(state, s, 1);
if (state->exit >= 0)
return state->exit;
}
update_state(state);
}
return state->exit;
}
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