toaruos/apps/bim.c

12119 lines
340 KiB
C

/* Bim - A Text Editor
*
* Copyright (C) 2012-2021 K. Lange
*
* Permission to use, copy, modify, and/or 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 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 "bim.h"
#define BIM_VERSION "3.1.0" TAG
#define BIM_COPYRIGHT "Copyright 2012-2021 K. Lange <\033[3mklange@toaruos.org\033[23m>"
#include <kuroko/kuroko.h>
#include <kuroko/vm.h>
#include <kuroko/debug.h>
#include <kuroko/util.h>
#include <kuroko/scanner.h>
global_config_t global_config = {
/* State */
.term_width = 0,
.term_height = 0,
.bottom_size = 2,
.yanks = NULL,
.yank_count = 0,
.yank_is_full_lines = 0,
.tty_in = STDIN_FILENO,
.bimrc_path = "~/.bim3rc",
.syntax_fallback = NULL, /* Syntax to fall back to if no other match applies */
.search = NULL,
.overlay_mode = OVERLAY_MODE_NONE,
.command_buffer = NULL,
.command_offset = 0,
.command_col_no = 0,
.history_point = -1,
.search_point = -1,
/* Bitset starts here */
.highlight_on_open = 1,
.initial_file_is_read_only = 0,
.go_to_line = 1,
.break_from_selection = 1,
/* Terminal capabilities */
.can_scroll = 1,
.can_hideshow = 1,
.can_altscreen = 1,
.can_mouse = 1,
.can_unicode = 1,
.can_bright = 1,
.can_title = 1,
.can_bce = 1,
.can_24bit = 1, /* can use 24-bit color */
.can_256color = 1, /* can use 265 colors */
.can_italic = 1, /* can use italics (without inverting) */
.can_insert = 0, /* ^[[L */
.can_bracketedpaste = 0, /* puts escapes before and after pasted stuff */
.can_sgrmouse = 0, /* Whether SGR mouse mode is availabe (large coordinates) */
/* Configuration options */
.history_enabled = 1,
.highlight_parens = 1, /* highlight parens/braces when cursor moves */
.smart_case = 1, /* smart case-sensitivity while searching */
.highlight_current_line = 1,
.shift_scrolling = 1, /* shift rather than moving cursor*/
.check_git = 0,
.color_gutter = 1, /* shows modified lines */
.relative_lines = 0,
.numbers = 1,
.horizontal_shift_scrolling = 0, /* Whether to shift the whole screen when scrolling horizontally */
.hide_statusbar = 0,
.tabs_visible = 1,
.autohide_tabs = 0,
.smart_complete = 0,
.has_terminal = 0,
.search_wraps = 1,
.had_error = 0,
.use_biminfo = 1,
/* Integer config values */
.cursor_padding = 4,
.split_percent = 50,
.scroll_amount = 5,
.tab_offset = 0,
.background_task = NULL,
.tail_task = NULL,
};
struct key_name_map KeyNames[] = {
{KEY_TIMEOUT, "[timeout]"},
{KEY_BACKSPACE, "<backspace>"},
{KEY_ENTER, "<enter>"},
{KEY_ESCAPE, "<escape>"},
{KEY_TAB, "<tab>"},
{' ', "<space>"},
/* These are mostly here for markdown output. */
{'`', "<backtick>"},
{'|', "<pipe>"},
{KEY_DELETE, "<del>"},
{KEY_MOUSE, "<mouse>"},
{KEY_MOUSE_SGR, "<mouse-sgr>"},
{KEY_F1, "<f1>"},{KEY_F2, "<f2>"},{KEY_F3, "<f3>"},{KEY_F4, "<f4>"},
{KEY_F5, "<f5>"},{KEY_F6, "<f6>"},{KEY_F7, "<f7>"},{KEY_F8, "<f8>"},
{KEY_F9, "<f9>"},{KEY_F10, "<f10>"},{KEY_F11, "<f11>"},{KEY_F12, "<f12>"},
{KEY_HOME,"<home>"},{KEY_END,"<end>"},{KEY_PAGE_UP,"<page-up>"},{KEY_PAGE_DOWN,"<page-down>"},
{KEY_UP, "<up>"},{KEY_DOWN, "<down>"},{KEY_RIGHT, "<right>"},{KEY_LEFT, "<left>"},
{KEY_SHIFT_UP, "<shift-up>"},{KEY_SHIFT_DOWN, "<shift-down>"},{KEY_SHIFT_RIGHT, "<shift-right>"},{KEY_SHIFT_LEFT, "<shift-left>"},
{KEY_CTRL_UP, "<ctrl-up>"},{KEY_CTRL_DOWN, "<ctrl-down>"},{KEY_CTRL_RIGHT, "<ctrl-right>"},{KEY_CTRL_LEFT, "<ctrl-left>"},
{KEY_ALT_UP, "<alt-up>"},{KEY_ALT_DOWN, "<alt-down>"},{KEY_ALT_RIGHT, "<alt-right>"},{KEY_ALT_LEFT, "<alt-left>"},
{KEY_ALT_SHIFT_UP, "<alt-shift-up>"},{KEY_ALT_SHIFT_DOWN, "<alt-shift-down>"},{KEY_ALT_SHIFT_RIGHT, "<alt-shift-right>"},{KEY_ALT_SHIFT_LEFT, "<alt-shift-left>"},
{KEY_SHIFT_TAB,"<shift-tab>"},
{KEY_PASTE_BEGIN,"<paste-begin>"},{KEY_PASTE_END,"<paste-end>"},
};
char * name_from_key(enum Key keycode) {
for (unsigned int i = 0; i < sizeof(KeyNames)/sizeof(KeyNames[0]); ++i) {
if (KeyNames[i].keycode == keycode) return KeyNames[i].name;
}
static char keyNameTmp[8] = {0};
if (keycode <= KEY_CTRL_UNDERSCORE) {
keyNameTmp[0] = '^';
keyNameTmp[1] = '@' + keycode;
keyNameTmp[2] = 0;
return keyNameTmp;
}
to_eight(keycode, keyNameTmp);
return keyNameTmp;
}
#define S(c) (krk_copyString(c,sizeof(c)-1))
static KrkClass * syntaxStateClass = NULL;
struct SyntaxState {
KrkInstance inst;
struct syntax_state state;
};
static void schedule_complete_recalc(void);
/**
* Theming data
*
* This default set is pretty simple "default foreground on default background"
* except for search and selections which are black-on-white specifically.
*
* The theme colors get set by separate configurable theme scripts.
*/
const char * COLOR_FG = "@9";
const char * COLOR_BG = "@9";
const char * COLOR_ALT_FG = "@9";
const char * COLOR_ALT_BG = "@9";
const char * COLOR_NUMBER_FG = "@9";
const char * COLOR_NUMBER_BG = "@9";
const char * COLOR_STATUS_FG = "@9";
const char * COLOR_STATUS_BG = "@9";
const char * COLOR_STATUS_ALT= "@9";
const char * COLOR_TABBAR_BG = "@9";
const char * COLOR_TAB_BG = "@9";
const char * COLOR_ERROR_FG = "@9";
const char * COLOR_ERROR_BG = "@9";
const char * COLOR_SEARCH_FG = "@0";
const char * COLOR_SEARCH_BG = "@17";
const char * COLOR_KEYWORD = "@9";
const char * COLOR_STRING = "@9";
const char * COLOR_COMMENT = "@9";
const char * COLOR_TYPE = "@9";
const char * COLOR_PRAGMA = "@9";
const char * COLOR_NUMERAL = "@9";
const char * COLOR_SELECTFG = "@0";
const char * COLOR_SELECTBG = "@17";
const char * COLOR_RED = "@1";
const char * COLOR_GREEN = "@2";
const char * COLOR_BOLD = "@9";
const char * COLOR_LINK = "@9";
const char * COLOR_ESCAPE = "@9";
const char * current_theme = "none";
struct ColorName color_names[] = {
{"text-fg", &COLOR_FG},
{"text-bg", &COLOR_BG},
{"alternate-fg", &COLOR_ALT_FG},
{"alternate-bg", &COLOR_ALT_BG},
{"number-fg", &COLOR_NUMBER_FG},
{"number-bg", &COLOR_NUMBER_BG},
{"status-fg", &COLOR_STATUS_FG},
{"status-bg", &COLOR_STATUS_BG},
{"status-alt", &COLOR_STATUS_ALT},
{"tabbar-bg", &COLOR_TABBAR_BG},
{"tab-bg", &COLOR_TAB_BG},
{"error-fg", &COLOR_ERROR_FG},
{"error-bg", &COLOR_ERROR_BG},
{"search-fg", &COLOR_SEARCH_FG},
{"search-bg", &COLOR_SEARCH_BG},
{"keyword", &COLOR_KEYWORD},
{"string", &COLOR_STRING},
{"comment", &COLOR_COMMENT},
{"type", &COLOR_TYPE},
{"pragma", &COLOR_PRAGMA},
{"numeral", &COLOR_NUMERAL},
{"select-fg", &COLOR_SELECTFG},
{"select-bg", &COLOR_SELECTBG},
{"red", &COLOR_RED},
{"green", &COLOR_GREEN},
{"bold", &COLOR_BOLD},
{"link", &COLOR_LINK},
{"escape", &COLOR_ESCAPE},
{NULL,NULL},
};
#define FLEXIBLE_ARRAY(name, add_name, type, zero) \
int flex_ ## name ## _count = 0; \
int flex_ ## name ## _space = 0; \
type * name = NULL; \
void add_name (type input) { \
if (flex_ ## name ## _space == 0) { \
flex_ ## name ## _space = 4; \
name = calloc(sizeof(type), flex_ ## name ## _space); \
} else if (flex_ ## name ## _count + 1 == flex_ ## name ## _space) { \
flex_ ## name ## _space *= 2; \
name = realloc(name, sizeof(type) * flex_ ## name ## _space); \
for (int i = flex_ ## name ## _count; i < flex_ ## name ## _space; ++i) name[i] = zero; \
} \
name[flex_ ## name ## _count] = input; \
flex_ ## name ## _count ++; \
}
FLEXIBLE_ARRAY(mappable_actions, add_action, struct action_def, ((struct action_def){NULL,0,0,NULL}))
FLEXIBLE_ARRAY(regular_commands, add_command, struct command_def, ((struct command_def){NULL,NULL,NULL}))
FLEXIBLE_ARRAY(prefix_commands, add_prefix_command, struct command_def, ((struct command_def){NULL,NULL,NULL}))
FLEXIBLE_ARRAY(themes, add_colorscheme, struct theme_def, ((struct theme_def){NULL,NULL}))
/**
* Special implementation of getch with a timeout
*/
int _bim_unget = -1;
void bim_unget(int c) {
_bim_unget = c;
}
void redraw_statusbar(void);
int bim_getch_timeout(int timeout) {
fflush(stdout);
if (_bim_unget != -1) {
int out = _bim_unget;
_bim_unget = -1;
return out;
}
struct pollfd fds[1];
fds[0].fd = global_config.tty_in;
fds[0].events = POLLIN;
int ret = poll(fds,1,timeout);
if (ret > 0 && fds[0].revents & POLLIN) {
unsigned char buf[1];
read(global_config.tty_in, buf, 1);
return buf[0];
} else {
background_task_t * task = global_config.background_task;
if (task) {
global_config.background_task = task->next;
task->func(task);
free(task);
if (!global_config.background_task) {
global_config.tail_task = NULL;
redraw_statusbar();
}
}
return -1;
}
}
/**
* UTF-8 parser state
*/
static uint32_t codepoint_r;
static uint32_t state = 0;
#define UTF8_ACCEPT 0
#define UTF8_REJECT 1
static inline uint32_t decode(uint32_t* state, uint32_t* codep, unsigned char byte) {
static int state_table[32] = {
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* 0xxxxxxx */
1,1,1,1,1,1,1,1, /* 10xxxxxx */
2,2,2,2, /* 110xxxxx */
3,3, /* 1110xxxx */
4, /* 11110xxx */
1 /* 11111xxx */
};
static int mask_bytes[32] = {
0x7F,0x7F,0x7F,0x7F,0x7F,0x7F,0x7F,0x7F,
0x7F,0x7F,0x7F,0x7F,0x7F,0x7F,0x7F,0x7F,
0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
0x1F,0x1F,0x1F,0x1F,
0x0F,0x0F,
0x07,
0x00
};
static int next[5] = {
0,
1,
0,
2,
3
};
if (*state == UTF8_ACCEPT) {
*codep = byte & mask_bytes[byte >> 3];
*state = state_table[byte >> 3];
} else if (*state > 0) {
*codep = (byte & 0x3F) | (*codep << 6);
*state = next[*state];
}
return *state;
}
#define shift_key(i) _shift_key((i), this_buf, &timeout);
int _shift_key(int i, int this_buf[20], int *timeout) {
int thing = this_buf[*timeout-1];
(*timeout) = 0;
switch (thing) {
/* There are other combinations we can handle... */
case '2': return i + 4;
case '5': return i + 8;
case '3': return i + 12;
case '4': return i + 16;
default: return i;
}
}
int bim_getkey(int read_timeout) {
int timeout = 0;
int this_buf[20];
int cin;
uint32_t c;
uint32_t istate = 0;
while ((cin = bim_getch_timeout((timeout == 1) ? 50 : read_timeout))) {
if (cin == -1) {
if (timeout && this_buf[timeout-1] == '\033')
return KEY_ESCAPE;
return KEY_TIMEOUT;
}
if (!decode(&istate, &c, cin)) {
if (timeout == 0) {
switch (c) {
case '\033':
if (timeout == 0) {
this_buf[timeout] = c;
timeout++;
}
continue;
case KEY_LINEFEED: return KEY_ENTER;
case KEY_DELETE: return KEY_BACKSPACE;
}
return c;
} else {
if (timeout >= 1 && this_buf[timeout-1] == '\033' && c == '\033') {
bim_unget(c);
timeout = 0;
return KEY_ESCAPE;
}
if (timeout >= 1 && this_buf[0] == '\033' && c == 'O') {
this_buf[timeout] = c;
timeout++;
continue;
}
if (timeout >= 2 && this_buf[0] == '\033' && this_buf[1] == 'O') {
switch (c) {
case 'P': return KEY_F1;
case 'Q': return KEY_F2;
case 'R': return KEY_F3;
case 'S': return KEY_F4;
}
timeout = 0;
continue;
}
if (timeout >= 1 && this_buf[timeout-1] == '\033' && c != '[') {
timeout = 0;
bim_unget(c);
return KEY_ESCAPE;
}
if (timeout >= 1 && this_buf[timeout-1] == '\033' && c == '[') {
timeout = 1;
this_buf[timeout] = c;
timeout++;
continue;
}
if (timeout >= 2 && this_buf[0] == '\033' && this_buf[1] == '[' &&
(isdigit(c) || (c == ';'))) {
this_buf[timeout] = c;
timeout++;
continue;
}
if (timeout >= 2 && this_buf[0] == '\033' && this_buf[1] == '[') {
switch (c) {
case 'M': return KEY_MOUSE;
case '<': return KEY_MOUSE_SGR;
case 'A': return shift_key(KEY_UP);
case 'B': return shift_key(KEY_DOWN);
case 'C': return shift_key(KEY_RIGHT);
case 'D': return shift_key(KEY_LEFT);
case 'H': return KEY_HOME;
case 'F': return KEY_END;
case 'I': return KEY_PAGE_UP;
case 'G': return KEY_PAGE_DOWN;
case 'Z': return KEY_SHIFT_TAB;
case '~':
if (timeout == 3) {
switch (this_buf[2]) {
case '1': return KEY_HOME;
case '3': return KEY_DELETE;
case '4': return KEY_END;
case '5': return KEY_PAGE_UP;
case '6': return KEY_PAGE_DOWN;
}
} else if (timeout == 5) {
if (this_buf[2] == '2' && this_buf[3] == '0' && this_buf[4] == '0') {
return KEY_PASTE_BEGIN;
} else if (this_buf[2] == '2' && this_buf[3] == '0' && this_buf[4] == '1') {
return KEY_PASTE_END;
}
} else if (this_buf[2] == '1') {
switch (this_buf[3]) {
case '5': return KEY_F5;
case '7': return KEY_F6;
case '8': return KEY_F7;
case '9': return KEY_F8;
}
} else if (this_buf[2] == '2') {
switch (this_buf[3]) {
case '0': return KEY_F9;
case '1': return KEY_F10;
case '3': return KEY_F11;
case '4': return KEY_F12;
}
}
break;
}
}
timeout = 0;
continue;
}
} else if (istate == UTF8_REJECT) {
istate = 0;
}
}
return KEY_TIMEOUT;
}
enum Key key_from_name(const char * name) {
for (unsigned int i = 0; i < sizeof(KeyNames)/sizeof(KeyNames[0]); ++i) {
if (!strcmp(KeyNames[i].name, name)) return KeyNames[i].keycode;
}
if (name[0] == '^' && name[1] && !name[2]) {
return name[1] - '@';
}
if (!name[1]) return name[0];
/* Try decoding */
uint32_t c, state = 0;
int candidate = -1;
while (*name) {
if (!decode(&state, &c, (unsigned char)*name)) {
if (candidate == -1) candidate = c;
else return -1; /* Reject `name` if it is multiple codepoints */
} else if (state == UTF8_REJECT) {
return -1;
}
}
return candidate;
}
/**
* Pointer to current active buffer
*/
buffer_t * env = NULL;
buffer_t * left_buffer = NULL;
buffer_t * right_buffer = NULL;
/**
* A buffer for holding a number (line, repetition count)
*/
#define NAV_BUFFER_MAX 10
char nav_buf[NAV_BUFFER_MAX+1];
int nav_buffer = 0;
/**
* Available buffers
*/
int buffers_len = 0;
int buffers_avail = 0;
buffer_t ** buffers = NULL;
/**
* Create a new buffer
*/
buffer_t * buffer_new(void) {
if (buffers_len == buffers_avail) {
/* If we are out of buffer space, expand the buffers vector */
buffers_avail *= 2;
buffers = realloc(buffers, sizeof(buffer_t *) * buffers_avail);
}
/* TODO: Clean up split support and support multiple splits... */
if (left_buffer) {
left_buffer->left = 0;
left_buffer->width = global_config.term_width;
right_buffer->left = 0;
right_buffer->width = global_config.term_width;
left_buffer = NULL;
right_buffer = NULL;
}
/* Allocate a new buffer */
buffers[buffers_len] = malloc(sizeof(buffer_t));
memset(buffers[buffers_len], 0x00, sizeof(buffer_t));
buffers[buffers_len]->left = 0;
buffers[buffers_len]->width = global_config.term_width;
buffers[buffers_len]->highlighting_paren = -1;
buffers[buffers_len]->numbers = global_config.numbers;
buffers[buffers_len]->gutter = 1;
buffers_len++;
global_config.tabs_visible = (!global_config.autohide_tabs) || (buffers_len > 1);
return buffers[buffers_len-1];
}
/**
* Open the biminfo file.
*/
FILE * open_biminfo(void) {
if (!global_config.use_biminfo) return NULL;
char * home = getenv("HOME");
if (!home) {
/* ... but since it's not, we need $HOME, so fail if it isn't set. */
return NULL;
}
/* biminfo lives at ~/.biminfo */
char biminfo_path[PATH_MAX+1] = {0};
sprintf(biminfo_path,"%s/.biminfo",home);
/* Try to open normally first... */
FILE * biminfo = fopen(biminfo_path,"r+");
if (!biminfo) {
/* Otherwise, try to create it. */
biminfo = fopen(biminfo_path,"w+");
}
return biminfo;
}
/**
* Check if a file is open by examining the biminfo file
*/
int file_is_open(char * file_name) {
/* Get the absolute path of the file to normalize for lookup */
char tmp_path[PATH_MAX+2];
if (!realpath(file_name, tmp_path)) {
return 0; /* Assume not */
}
strcat(tmp_path," ");
FILE * biminfo = open_biminfo();
if (!biminfo) return 0; /* Assume not */
/* Scan */
char line[PATH_MAX+64];
while (!feof(biminfo)) {
fpos_t start_of_line;
fgetpos(biminfo, &start_of_line);
fgets(line, PATH_MAX+63, biminfo);
if (line[0] != '%') {
continue;
}
if (!strncmp(&line[1],tmp_path, strlen(tmp_path))) {
/* File is currently open */
int pid = -1;
sscanf(line+1+strlen(tmp_path)+1,"%d",&pid);
if (pid != -1 && pid != getpid()) {
if (!kill(pid, 0)) {
int key = 0;
render_error("biminfo indicates another instance may already be editing this file");
render_commandline_message("\n");
render_commandline_message("file path = %s\n", tmp_path);
render_commandline_message("pid = %d (still running)\n", pid);
render_commandline_message("Open file anyway? (y/N)");
while ((key = bim_getkey(DEFAULT_KEY_WAIT)) == KEY_TIMEOUT);
if (key != 'y') {
fclose(biminfo);
return 1;
}
}
}
fclose(biminfo);
return 0;
}
}
fclose(biminfo);
return 0;
}
/**
* Fetch the cursor position from a biminfo file
*/
int fetch_from_biminfo(buffer_t * buf) {
/* Can't fetch if we don't have a filename */
if (!buf->file_name) return 1;
/* Get the absolute path of the file to normalize for lookup */
char tmp_path[PATH_MAX+2];
if (!realpath(buf->file_name, tmp_path)) {
return 1;
}
strcat(tmp_path," ");
FILE * biminfo = open_biminfo();
if (!biminfo) return 1;
/* Scan */
char line[PATH_MAX+64];
while (!feof(biminfo)) {
fpos_t start_of_line;
fgetpos(biminfo, &start_of_line);
fgets(line, PATH_MAX+63, biminfo);
if (line[0] != '>') {
continue;
}
if (!strncmp(&line[1],tmp_path, strlen(tmp_path))) {
/* Read */
sscanf(line+1+strlen(tmp_path)+1,"%d",&buf->line_no);
sscanf(line+1+strlen(tmp_path)+21,"%d",&buf->col_no);
if (buf->line_no > buf->line_count) buf->line_no = buf->line_count;
if (buf->col_no > buf->lines[buf->line_no-1]->actual) buf->col_no = buf->lines[buf->line_no-1]->actual;
try_to_center();
fclose(biminfo);
return 0;
}
}
fclose(biminfo);
return 0;
}
/**
* Write a file containing the last cursor position of a buffer.
*/
int update_biminfo(buffer_t * buf, int is_open) {
if (!buf->file_name) return 1;
/* Get the absolute path of the file to normalize for lookup */
char tmp_path[PATH_MAX+1];
if (!realpath(buf->file_name, tmp_path)) {
return 1;
}
strcat(tmp_path," ");
FILE * biminfo = open_biminfo();
if (!biminfo) return 1;
/* Scan */
char line[PATH_MAX+64];
while (!feof(biminfo)) {
fpos_t start_of_line;
fgetpos(biminfo, &start_of_line);
fgets(line, PATH_MAX+63, biminfo);
if (line[0] != '>' && line[0] != '%') {
continue;
}
if (!strncmp(&line[1],tmp_path, strlen(tmp_path))) {
/* Update */
fsetpos(biminfo, &start_of_line);
fprintf(biminfo,"%c%s %20d %20d\n", is_open ? '%' : '>', tmp_path,
is_open ? getpid() : buf->line_no, buf->col_no);
goto _done;
}
}
if (ftell(biminfo) == 0) {
/* New biminfo */
fprintf(biminfo, "# This is a biminfo file.\n");
fprintf(biminfo, "# It was generated by bim. Do not edit it by hand!\n");
fprintf(biminfo, "# Cursor positions and other state are stored here.\n");
}
/* If we reach this point, we didn't find a record for this file
* and the write cursor should be at the end, so just add a new line */
fprintf(biminfo,"%c%s %20d %20d\n", is_open ? '%' : '>', tmp_path,
is_open ? getpid() : buf->line_no, buf->col_no);
_done:
fclose(biminfo);
return 0;
}
void cancel_background_tasks(buffer_t * buf) {
background_task_t * t = global_config.background_task;
background_task_t * last = NULL;
while (t) {
if (t->env == buf) {
if (last) {
last->next = t->next;
} else {
global_config.background_task = t->next;
}
if (!t->next) {
global_config.tail_task = last;
}
background_task_t * tmp = t->next;
free(t);
t = tmp;
} else {
last = t;
t = t->next;
}
}
}
/**
* Close a buffer
*/
buffer_t * buffer_close(buffer_t * buf) {
int i;
/* Locate the buffer in the buffer list */
for (i = 0; i < buffers_len; i++) {
if (buf == buffers[i])
break;
}
/* This buffer doesn't exist? */
if (i == buffers_len) {
return NULL;
}
/* Cancel any background tasks for this env */
cancel_background_tasks(buf);
update_biminfo(buf, 0);
/* Clean up lines used by old buffer */
for (int i = 0; i < buf->line_count; ++i) {
free(buf->lines[i]);
}
free(buf->lines);
if (buf->file_name) {
free(buf->file_name);
}
history_t * h = buf->history;
while (h->next) {
h = h->next;
}
while (h) {
history_t * x = h->previous;
free(h);
h = x;
}
/* Clean up the old buffer */
free(buf);
/* Remove the buffer from the vector, moving others up */
if (i != buffers_len - 1) {
memmove(&buffers[i], &buffers[i+1], sizeof(*buffers) * (buffers_len - i - 1));
}
/* There is one less buffer */
buffers_len--;
if (buffers_len && global_config.tab_offset >= buffers_len) global_config.tab_offset--;
global_config.tabs_visible = (!global_config.autohide_tabs) || (buffers_len > 1);
if (!buffers_len) {
/* There are no more buffers. */
return NULL;
}
/* If this was the last buffer in the list, return the previous last buffer */
if (i == buffers_len) {
return buffers[buffers_len-1];
}
/* Otherwise return the buffer in the same location */
return buffers[i];
}
/**
* Convert syntax highlighting flag to color code
*/
const char * flag_to_color(int _flag) {
int flag = _flag & FLAG_MASK_COLORS;
switch (flag) {
case FLAG_KEYWORD:
return COLOR_KEYWORD;
case FLAG_STRING:
return COLOR_STRING;
case FLAG_COMMENT:
return COLOR_COMMENT;
case FLAG_TYPE:
return COLOR_TYPE;
case FLAG_NUMERAL:
return COLOR_NUMERAL;
case FLAG_PRAGMA:
return COLOR_PRAGMA;
case FLAG_DIFFPLUS:
return COLOR_GREEN;
case FLAG_DIFFMINUS:
return COLOR_RED;
case FLAG_SELECT:
return COLOR_FG;
case FLAG_BOLD:
return COLOR_BOLD;
case FLAG_LINK_COLOR:
return COLOR_LINK;
case FLAG_ESCAPE:
return COLOR_ESCAPE;
default:
return COLOR_FG;
}
}
/**
* Match and paint a single keyword. Returns 1 if the keyword was matched and 0 otherwise,
* so it can be used for prefix checking for things that need further special handling.
*/
static int match_and_paint(struct syntax_state * state, const char * keyword, int flag, int (*keyword_qualifier)(int c)) {
if (keyword_qualifier(lastchar())) return 0;
if (!keyword_qualifier(charat())) return 0;
int i = state->i;
int slen = 0;
while (i < state->line->actual || *keyword == '\0') {
if (*keyword == '\0' && (i >= state->line->actual || !keyword_qualifier(state->line->text[i].codepoint))) {
for (int j = 0; j < slen; ++j) {
paint(1, flag);
}
return 1;
}
if (*keyword != state->line->text[i].codepoint) return 0;
i++;
keyword++;
slen++;
}
return 0;
}
/**
* This is a basic character matcher for "keyword" characters.
*/
static int simple_keyword_qualifier(int c) {
return isalnum(c) || (c == '_');
}
/**
* These words can appear in comments and should be highlighted.
* Since there are a lot of comment highlighters, this is provided
* as a common function that can be used by multiple highlighters.
*/
static int common_comment_buzzwords(struct syntax_state * state) {
if (match_and_paint(state, "TODO", FLAG_NOTICE, simple_keyword_qualifier)) { return 1; }
else if (match_and_paint(state, "XXX", FLAG_NOTICE, simple_keyword_qualifier)) { return 1; }
else if (match_and_paint(state, "FIXME", FLAG_ERROR, simple_keyword_qualifier)) { return 1; }
return 0;
}
/**
* Paint a comment until end of line; assumes this comment can not continue.
* (Some languages have comments that can continue with a \ - don't use this!)
* Assumes you've already painted your comment start characters.
*/
static int paint_comment(struct syntax_state * state) {
while (charat() != -1) {
if (common_comment_buzzwords(state)) continue;
else { paint(1, FLAG_COMMENT); }
}
return -1;
}
/**
* Find and return a highlighter by name, or return NULL if none was found.
*/
static struct syntax_definition * find_syntax_calculator(const char * name) {
for (struct syntax_definition * s = syntaxes; syntaxes && s->name; ++s) {
if (!strcmp(s->name, name)) {
return s;
}
}
return NULL;
}
int syntax_count = 0;
int syntax_space = 0;
struct syntax_definition * syntaxes = NULL;
void add_syntax(struct syntax_definition def) {
/* See if a name match already exists for this def. */
for (struct syntax_definition * s = syntaxes; syntaxes && s->name; ++s) {
if (!strcmp(def.name,s->name)) {
*s = def;
return;
}
}
if (syntax_space == 0) {
syntax_space = 4;
syntaxes = calloc(sizeof(struct syntax_definition), syntax_space);
} else if (syntax_count +1 == syntax_space) {
syntax_space *= 2;
syntaxes = realloc(syntaxes, sizeof(struct syntax_definition) * syntax_space);
for (int i = syntax_count; i < syntax_space; ++i) syntaxes[i].name = NULL;
}
syntaxes[syntax_count] = def;
syntax_count++;
}
void redraw_all(void);
/**
* Calculate syntax highlighting for the given line, and lines after
* if their initial syntax state has changed by this recalculation.
*
* If `line_no` is -1, this line is taken to be a special line and not
* part of a buffer; search highlighting will not be processed and syntax
* highlighting will halt after the line is finished.
*
* If `env->slowop` is currently enabled, recalculation is skipped.
*/
void recalculate_syntax(line_t * line, int line_no) {
if (env->slowop) return;
/* Clear syntax for this line first */
int is_original = 1;
while (1) {
for (int i = 0; i < line->actual; ++i) {
line->text[i].flags = line->text[i].flags & (3 << 5);
}
if (!env->syntax) {
if (line_no != -1) rehighlight_search(line);
return;
}
/* Start from the line's stored in initial state */
struct SyntaxState * s = (void*)krk_newInstance(env->syntax->krkClass);
s->state.env = env;
s->state.line = line;
s->state.line_no = line_no;
s->state.state = line->istate;
s->state.i = 0;
while (1) {
struct termios old, new;
tcgetattr(global_config.tty_in, &old);
new = old; new.c_lflag |= ISIG;
tcsetattr(global_config.tty_in, TCSANOW, &new);
ptrdiff_t before = krk_currentThread.stackTop - krk_currentThread.stack;
krk_push(OBJECT_VAL(env->syntax->krkFunc));
krk_push(OBJECT_VAL(s));
KrkValue result = krk_callStack(1);
tcsetattr(global_config.tty_in, TCSANOW, &old);
krk_currentThread.stackTop = krk_currentThread.stack + before;
if (IS_NONE(result) && (krk_currentThread.flags & KRK_THREAD_HAS_EXCEPTION)) {
render_error("Exception occurred in plugin: %s", AS_INSTANCE(krk_currentThread.currentException)->_class->name->chars);
render_commandline_message("\n");
krk_dumpTraceback();
goto _syntaxError;
} else if (!IS_NONE(result) && !IS_INTEGER(result)) {
render_error("Instead of an integer, got %s", krk_typeName(result));
render_commandline_message("\n");
goto _syntaxError;
}
s->state.state = IS_NONE(result) ? -1 : AS_INTEGER(result);
if (s->state.state != 0) {
if (line_no == -1) return;
rehighlight_search(line);
if (!is_original) {
redraw_line(line_no);
}
if (line_no + 1 < env->line_count && env->lines[line_no+1]->istate != s->state.state) {
line_no++;
line = env->lines[line_no];
line->istate = s->state.state;
if (env->loading) return;
is_original = 0;
goto _next;
}
return;
}
}
_next:
(void)0;
}
_syntaxError:
krk_resetStack();
fprintf(stderr,"This syntax highlighter will be disabled in this environment.");
env->syntax = NULL;
cancel_background_tasks(env);
pause_for_key();
redraw_all();
}
/**
* Recalculate tab widths.
*/
void recalculate_tabs(line_t * line) {
if (env->loading) return;
int j = 0;
for (int i = 0; i < line->actual; ++i) {
if (line->text[i].codepoint == '\t') {
line->text[i].display_width = env->tabstop - (j % env->tabstop);
}
j += line->text[i].display_width;
}
}
/**
* The next section contains the basic editing primitives. All other
* actions are built out of these primitives, and they are the basic
* instructions that get stored in history to be undone (or redone).
*
* Primitives may recalculate syntax or redraw lines, if needed, but only
* when conditions for redrawing are met (such as not being in `slowop`,
* or loading the file; also replaying history, or when loading files).
*
* At the moment, primitives and most other functions do not take the current
* buffer (environment) as an argument and instead rely on a global variable;
* this should definitely be fixed at some point...
*/
/**
* When a new action that produces history happens and there is forward
* history that can be redone, we need to erase it as our tree has branched.
* If we wanted, we could actually story things in a tree structure so that
* the new branch and the old branch can both stick around, and that should
* probably be explored in the future...
*/
void history_free(history_t * root) {
if (!root->next) return;
/* Find the last entry so we can free backwards */
history_t * n = root->next;
while (n->next) {
n = n->next;
}
/* Free everything after the root, including stored content. */
while (n != root) {
history_t * p = n->previous;
switch (n->type) {
case HISTORY_REPLACE_LINE:
free(n->contents.remove_replace_line.contents);
/* fall-through */
case HISTORY_REMOVE_LINE:
free(n->contents.remove_replace_line.old_contents);
break;
default:
/* Nothing extra to free */
break;
}
free(n);
n = p;
}
root->next = NULL;
}
/**
* This macro is called by primitives to insert history elements for each
* primitive action when performing in edit modes.
*/
#define HIST_APPEND(e) do { \
e->col = env->col_no; \
e->line = env->line_no; \
if (env->history) { \
e->previous = env->history; \
history_free(env->history); \
env->history->next = e; \
e->next = NULL; \
} \
env->history = e; \
} while (0)
/**
* Mark a point where a complete set of actions has ended.
* Individual history entries include things like "insert one character"
* but a user action that should be undone is "insert several characters";
* breaks should be inserted after a series of primitives when there is
* a clear "end", such as when switching out of insert mode after typing.
*/
void set_history_break(void) {
if (!global_config.history_enabled) return;
/* Do not produce duplicate breaks, or add breaks if we are at a sentinel. */
if (env->history->type != HISTORY_BREAK && env->history->type != HISTORY_SENTINEL) {
history_t * e = malloc(sizeof(history_t));
e->type = HISTORY_BREAK;
HIST_APPEND(e);
}
}
/**
* (Primitive) Insert a character into an existing line.
*
* This is the most basic primitive action: Take a line, and insert a codepoint
* into it at a given offset. If `lineno` is not -1, the line is assumed to
* be part of the active buffer. If inserting a character means the line needs
* to grow, then it will be reallocated, so the return value of the new line
* must ALWAYS be used. This primitive will NOT automatically update the
* buffer with the new pointer, so if you are calling insert on a buffer you
* MUST update env->lines[lineno-1] yourself.
*/
__attribute__((warn_unused_result)) line_t * line_insert(line_t * line, char_t c, int offset, int lineno) {
if (!env->loading && global_config.history_enabled && lineno != -1) {
history_t * e = malloc(sizeof(history_t));
e->type = HISTORY_INSERT;
e->contents.insert_delete_replace.lineno = lineno;
e->contents.insert_delete_replace.offset = offset;
e->contents.insert_delete_replace.codepoint = c.codepoint;
HIST_APPEND(e);
}
/* If there is not enough space... */
if (line->actual == line->available) {
/* Expand the line buffer */
if (line->available == 0) {
line->available = 8;
} else {
line->available *= 2;
}
line = realloc(line, sizeof(line_t) + sizeof(char_t) * line->available);
}
/* If this was not the last character, then shift remaining characters forward. */
if (offset < line->actual) {
memmove(&line->text[offset+1], &line->text[offset], sizeof(char_t) * (line->actual - offset));
}
/* Insert the new character */
line->text[offset] = c;
/* There is one new character in the line */
line->actual += 1;
if (!env->loading) {
line->rev_status = 2; /* Modified */
recalculate_tabs(line);
recalculate_syntax(line, lineno);
}
return line;
}
/**
* (Primitive) Delete a character from a line.
*
* Remove the character at the given offset. We never shrink lines, so this
* does not have a return value, and delete should never be called during
* a loading operation (though it may be called during a history replay).
*/
void line_delete(line_t * line, int offset, int lineno) {
/* Can't delete character before start of line. */
if (offset == 0) return;
/* Can't delete past end of line either */
if (offset > line->actual) return;
if (!env->loading && global_config.history_enabled && lineno != -1) {
history_t * e = malloc(sizeof(history_t));
e->type = HISTORY_DELETE;
e->contents.insert_delete_replace.lineno = lineno;
e->contents.insert_delete_replace.offset = offset;
e->contents.insert_delete_replace.old_codepoint = line->text[offset-1].codepoint;
HIST_APPEND(e);
}
/* If this isn't the last character, we need to move all subsequent characters backwards */
if (offset < line->actual) {
memmove(&line->text[offset-1], &line->text[offset], sizeof(char_t) * (line->actual - offset));
}
/* The line is one character shorter */
line->actual -= 1;
line->rev_status = 2;
recalculate_tabs(line);
recalculate_syntax(line, lineno);
}
/**
* (Primitive) Replace a character in a line.
*
* Replaces the codepoint at the given offset with a new character. Since this
* does not involve any size changes, it does not have a return value.
* Since a replacement character may be a tab, we do still need to recalculate
* character widths for tabs as they may change.
*/
void line_replace(line_t * line, char_t _c, int offset, int lineno) {
if (!env->loading && global_config.history_enabled && lineno != -1) {
history_t * e = malloc(sizeof(history_t));
e->type = HISTORY_REPLACE;
e->contents.insert_delete_replace.lineno = lineno;
e->contents.insert_delete_replace.offset = offset;
e->contents.insert_delete_replace.codepoint = _c.codepoint;
e->contents.insert_delete_replace.old_codepoint = line->text[offset].codepoint;
HIST_APPEND(e);
}
line->text[offset] = _c;
if (!env->loading) {
line->rev_status = 2; /* Modified */
recalculate_tabs(line);
recalculate_syntax(line, lineno);
}
}
/**
* (Primitive) Remove a line from the active buffer
*
* This primitive is only valid for a buffer. Delete a line, or if this is the
* only line in the buffer, clear it but keep the line around with no
* characters. We use the `line_delete` primitive to clear that line,
* otherwise we are our own primitive and produce history entries.
*
* While we do not shrink the `lines` array, it is returned here anyway.
*/
line_t ** remove_line(line_t ** lines, int offset) {
/* If there is only one line, clear it instead of removing it. */
if (env->line_count == 1) {
while (lines[offset]->actual > 0) {
line_delete(lines[offset], lines[offset]->actual, offset);
}
return lines;
}
/* When a line is removed, we need to keep its contents so we
* can un-remove it on redo... */
if (!env->loading && global_config.history_enabled) {
history_t * e = malloc(sizeof(history_t));
e->type = HISTORY_REMOVE_LINE;
e->contents.remove_replace_line.lineno = offset;
e->contents.remove_replace_line.old_contents = malloc(sizeof(line_t) + sizeof(char_t) * lines[offset]->available);
memcpy(e->contents.remove_replace_line.old_contents, lines[offset], sizeof(line_t) + sizeof(char_t) * lines[offset]->available);
HIST_APPEND(e);
}
/* Otherwise, free the data used by the line */
free(lines[offset]);
/* Move other lines up */
if (offset < env->line_count-1) {
memmove(&lines[offset], &lines[offset+1], sizeof(line_t *) * (env->line_count - (offset - 1)));
lines[env->line_count-1] = NULL;
}
/* There is one less line */
env->line_count -= 1;
return lines;
}
/**
* (Primitive) Add a new line to the active buffer.
*
* Inserts a new line into a buffer at the given line offset.
* Since this grows the buffer, it will return the new line array
* after reallocation if needed.
*/
line_t ** add_line(line_t ** lines, int offset) {
/* Invalid offset? */
if (offset > env->line_count) return lines;
if (!env->loading && global_config.history_enabled) {
history_t * e = malloc(sizeof(history_t));
e->type = HISTORY_ADD_LINE;
e->contents.add_merge_split_lines.lineno = offset;
HIST_APPEND(e);
}
/* Not enough space */
if (env->line_count == env->line_avail) {
/* Allocate more space */
env->line_avail *= 2;
lines = realloc(lines, sizeof(line_t *) * env->line_avail);
}
/* If this isn't the last line, move other lines down */
if (offset < env->line_count) {
memmove(&lines[offset+1], &lines[offset], sizeof(line_t *) * (env->line_count - offset));
}
/* Allocate the new line */
lines[offset] = calloc(sizeof(line_t) + sizeof(char_t) * 32, 1);
lines[offset]->available = 32;
/* There is one new line */
env->line_count += 1;
env->lines = lines;
if (!env->loading) {
lines[offset]->rev_status = 2; /* Modified */
}
if (offset > 0 && !env->loading) {
recalculate_syntax(lines[offset-1],offset-1);
}
return lines;
}
/**
* (Primitive) Replace a line with data from another line.
*
* This is only called when pasting yanks after calling `add_line`,
* but it allows us to have simpler history for that action.
*/
void replace_line(line_t ** lines, int offset, line_t * replacement) {
if (!env->loading && global_config.history_enabled) {
history_t * e = malloc(sizeof(history_t));
e->type = HISTORY_REPLACE_LINE;
e->contents.remove_replace_line.lineno = offset;
e->contents.remove_replace_line.old_contents = malloc(sizeof(line_t) + sizeof(char_t) * lines[offset]->available);
memcpy(e->contents.remove_replace_line.old_contents, lines[offset], sizeof(line_t) + sizeof(char_t) * lines[offset]->available);
e->contents.remove_replace_line.contents = malloc(sizeof(line_t) + sizeof(char_t) * replacement->available);
memcpy(e->contents.remove_replace_line.contents, replacement, sizeof(line_t) + sizeof(char_t) * replacement->available);
HIST_APPEND(e);
}
if (lines[offset]->available < replacement->actual) {
lines[offset] = realloc(lines[offset], sizeof(line_t) + sizeof(char_t) * replacement->available);
lines[offset]->available = replacement->available;
}
lines[offset]->actual = replacement->actual;
memcpy(&lines[offset]->text, &replacement->text, sizeof(char_t) * replacement->actual);
if (!env->loading) {
lines[offset]->rev_status = 2;
recalculate_syntax(lines[offset],offset);
}
}
/**
* (Primitive) Merge two consecutive lines.
*
* Take two lines in a buffer and turn them into one line.
* `lineb` is the offset of the second line... or the
* line number of the first line, depending on which indexing
* system you prefer to think about. This won't grow `lines`,
* but it will likely modify it and can reallocate individual
* lines as well.
*/
line_t ** merge_lines(line_t ** lines, int lineb) {
/* linea is the line immediately before lineb */
int linea = lineb - 1;
if (!env->loading && global_config.history_enabled) {
history_t * e = malloc(sizeof(history_t));
e->type = HISTORY_MERGE_LINES;
e->contents.add_merge_split_lines.lineno = lineb;
e->contents.add_merge_split_lines.split = env->lines[linea]->actual;
HIST_APPEND(e);
}
/* If there isn't enough space in linea hold both... */
if (lines[linea]->available < lines[linea]->actual + lines[lineb]->actual) {
while (lines[linea]->available < lines[linea]->actual + lines[lineb]->actual) {
/* ... allocate more space until it fits */
if (lines[linea]->available == 0) {
lines[linea]->available = 8;
} else {
lines[linea]->available *= 2;
}
}
lines[linea] = realloc(lines[linea], sizeof(line_t) + sizeof(char_t) * lines[linea]->available);
}
/* Copy the second line into the first line */
memcpy(&lines[linea]->text[lines[linea]->actual], &lines[lineb]->text, sizeof(char_t) * lines[lineb]->actual);
/* The first line is now longer */
lines[linea]->actual = lines[linea]->actual + lines[lineb]->actual;
if (!env->loading) {
lines[linea]->rev_status = 2;
recalculate_tabs(lines[linea]);
recalculate_syntax(lines[linea], linea);
}
/* Remove the second line */
free(lines[lineb]);
/* Move other lines up */
if (lineb < env->line_count) {
memmove(&lines[lineb], &lines[lineb+1], sizeof(line_t *) * (env->line_count - (lineb - 1)));
lines[env->line_count-1] = NULL;
}
/* There is one less line */
env->line_count -= 1;
return lines;
}
/**
* (Primitive) Split a line into two lines at the given column.
*
* Takes one line and makes it two lines. There are some optimizations
* if you are trying to "split" at the first or last column, which
* are both just treated as add_line.
*/
line_t ** split_line(line_t ** lines, int line, int split) {
/* If we're trying to split from the start, just add a new blank line before */
if (split == 0) {
return add_line(lines, line);
}
if (!env->loading && global_config.history_enabled) {
history_t * e = malloc(sizeof(history_t));
e->type = HISTORY_SPLIT_LINE;
e->contents.add_merge_split_lines.lineno = line;
e->contents.add_merge_split_lines.split = split;
HIST_APPEND(e);
}
if (!env->loading) {
unhighlight_matching_paren();
}
/* Allocate more space as needed */
if (env->line_count == env->line_avail) {
env->line_avail *= 2;
lines = realloc(lines, sizeof(line_t *) * env->line_avail);
}
/* Shift later lines down */
if (line < env->line_count) {
memmove(&lines[line+2], &lines[line+1], sizeof(line_t *) * (env->line_count - line));
}
int remaining = lines[line]->actual - split;
/* This is some wacky math to get a good power-of-two */
int v = remaining;
v--;
v |= v >> 1;
v |= v >> 2;
v |= v >> 4;
v |= v >> 8;
v |= v >> 16;
v++;
/* Allocate space for the new line */
lines[line+1] = calloc(sizeof(line_t) + sizeof(char_t) * v, 1);
lines[line+1]->available = v;
lines[line+1]->actual = remaining;
/* Move the data from the old line into the new line */
memmove(lines[line+1]->text, &lines[line]->text[split], sizeof(char_t) * remaining);
lines[line]->actual = split;
if (!env->loading) {
lines[line]->rev_status = 2;
lines[line+1]->rev_status = 2;
recalculate_tabs(lines[line]);
recalculate_tabs(lines[line+1]);
recalculate_syntax(lines[line], line);
recalculate_syntax(lines[line+1], line+1);
}
/* There is one new line */
env->line_count += 1;
/* We may have reallocated lines */
return lines;
}
/**
* Primitives end here. Everything after this point that wants to
* perform modifications must be built on these primitives and
* should never directly modify env->lines or the contents thereof,
* outside of syntax highlighting flag changes.
*/
/**
* The following section is where we implement "smart" automatic
* indentation. A lot of this is hacked-together nonsense and "smart"
* is a bit of an overstatement.
*/
/**
* Understand spaces and comments and check if the previous line
* ended with a brace or a colon.
*/
int line_ends_with_brace(line_t * line) {
int i = line->actual-1;
while (i >= 0) {
if ((line->text[i].flags & 0x1F) == FLAG_COMMENT || line->text[i].codepoint == ' ') {
i--;
} else {
break;
}
}
if (i < 0) return 0;
return (line->text[i].codepoint == '{' || line->text[i].codepoint == ':') ? i+1 : 0;
}
/**
* Determine if a given line is a comment by checking its initial
* syntax highlighting state value. This is used by automatic indentation
* to continue block comments in languages like C.
*
* TODO: Why isn't this a syntax-> method?
*/
int line_is_comment(line_t * line) {
if (!env->syntax) return 0;
if (!strcmp(env->syntax->name,"c")) {
if (line->istate == 1) return 1;
} else if (!strcmp(env->syntax->name,"java")) {
if (line->istate == 1) return 1;
} else if (!strcmp(env->syntax->name,"kotlin")) {
if (line->istate == 1) return 1;
} else if (!strcmp(env->syntax->name,"rust")) {
if (line->istate > 0) return 1;
}
return 0;
}
/**
* Figure out where the indentation for a brace belongs by finding
* where the start of the line is after whitespace. This is called
* by default when we insert } and tries to align it with the indentation
* of the matching opening {.
*/
int find_brace_line_start(int line, int col) {
int ncol = col - 1;
while (ncol > 0) {
if (env->lines[line-1]->text[ncol-1].codepoint == ')') {
int t_line_no = env->line_no;
int t_col_no = env->col_no;
env->line_no = line;
env->col_no = ncol;
int paren_match_line = -1, paren_match_col = -1;
find_matching_paren(&paren_match_line, &paren_match_col, 1);
if (paren_match_line != -1) {
line = paren_match_line;
}
env->line_no = t_line_no;
env->col_no = t_col_no;
break;
} else if (env->lines[line-1]->text[ncol-1].codepoint == ' ') {
ncol--;
} else {
break;
}
}
return line;
}
/**
* Add indentation from the previous (temporally) line.
*
* By "temporally", we mean not necessarily the line above, but
* potentially the line below if we are inserting a line above
* the cursor.
*/
void add_indent(int new_line, int old_line, int ignore_brace) {
if (env->indent) {
int changed = 0;
if (old_line < new_line && line_is_comment(env->lines[new_line])) {
for (int i = 0; i < env->lines[old_line]->actual; ++i) {
if (env->lines[old_line]->text[i].codepoint == '/') {
if (env->lines[old_line]->text[i+1].codepoint == '*') {
/* Insert ' * ' */
char_t space = {1,FLAG_COMMENT,' '};
char_t asterisk = {1,FLAG_COMMENT,'*'};
env->lines[new_line] = line_insert(env->lines[new_line],space,i,new_line);
env->lines[new_line] = line_insert(env->lines[new_line],asterisk,i+1,new_line);
env->lines[new_line] = line_insert(env->lines[new_line],space,i+2,new_line);
env->col_no += 3;
}
break;
} else if (env->lines[old_line]->text[i].codepoint == ' ' && env->lines[old_line]->text[i+1].codepoint == '*') {
/* Insert ' * ' */
char_t space = {1,FLAG_COMMENT,' '};
char_t asterisk = {1,FLAG_COMMENT,'*'};
env->lines[new_line] = line_insert(env->lines[new_line],space,i,new_line);
env->lines[new_line] = line_insert(env->lines[new_line],asterisk,i+1,new_line);
env->lines[new_line] = line_insert(env->lines[new_line],space,i+2,new_line);
env->col_no += 3;
break;
} else if (env->lines[old_line]->text[i].codepoint == ' ' ||
env->lines[old_line]->text[i].codepoint == '\t' ||
env->lines[old_line]->text[i].codepoint == '*') {
env->lines[new_line] = line_insert(env->lines[new_line],env->lines[old_line]->text[i],i,new_line);
env->col_no++;
changed = 1;
} else {
break;
}
}
} else {
int line_to_copy_from = old_line;
int col;
if (old_line < new_line &&
!ignore_brace &&
(col = line_ends_with_brace(env->lines[old_line])) &&
env->lines[old_line]->text[col-1].codepoint == '{') {
line_to_copy_from = find_brace_line_start(old_line+1, col)-1;
}
for (int i = 0; i < env->lines[line_to_copy_from]->actual; ++i) {
if (line_to_copy_from < new_line && i == env->lines[line_to_copy_from]->actual - 3 &&
env->lines[line_to_copy_from]->text[i].codepoint == ' ' &&
env->lines[line_to_copy_from]->text[i+1].codepoint == '*' &&
env->lines[line_to_copy_from]->text[i+2].codepoint == '/') {
break;
} else if (env->lines[line_to_copy_from]->text[i].codepoint == ' ' ||
env->lines[line_to_copy_from]->text[i].codepoint == '\t') {
env->lines[new_line] = line_insert(env->lines[new_line],env->lines[line_to_copy_from]->text[i],i,new_line);
env->col_no++;
changed = 1;
} else {
break;
}
}
}
if (old_line < new_line && !ignore_brace && line_ends_with_brace(env->lines[old_line])) {
if (env->tabs) {
char_t c = {0};
c.codepoint = '\t';
c.display_width = env->tabstop;
env->lines[new_line] = line_insert(env->lines[new_line], c, env->col_no-1, new_line);
env->col_no++;
changed = 1;
} else {
for (int j = 0; j < env->tabstop; ++j) {
char_t c = {0};
c.codepoint = ' ';
c.display_width = 1;
env->lines[new_line] = line_insert(env->lines[new_line], c, env->col_no-1, new_line);
env->col_no++;
}
changed = 1;
}
}
int was_whitespace = 1;
for (int i = 0; i < env->lines[old_line]->actual; ++i) {
if (env->lines[old_line]->text[i].codepoint != ' ' &&
env->lines[old_line]->text[i].codepoint != '\t') {
was_whitespace = 0;
break;
}
}
if (was_whitespace) {
while (env->lines[old_line]->actual) {
line_delete(env->lines[old_line], env->lines[old_line]->actual, old_line);
}
}
if (changed) {
recalculate_syntax(env->lines[new_line],new_line);
}
}
}
/**
* Initialize a buffer with default values.
*
* Should be called after creating a buffer.
*/
void setup_buffer(buffer_t * env) {
/* If this buffer was already initialized, clear out its line data */
if (env->lines) {
for (int i = 0; i < env->line_count; ++i) {
free(env->lines[i]);
}
free(env->lines);
}
/* Default state parameters */
env->line_no = 1; /* Default cursor position */
env->col_no = 1;
env->line_count = 1; /* Buffers always have at least one line */
env->modified = 0;
env->readonly = 0;
env->offset = 0;
env->line_avail = 8; /* Default line buffer capacity */
env->tabs = 1; /* Tabs by default */
env->tabstop = 4; /* Tab stop width */
env->indent = 1; /* Auto-indent by default */
env->history = malloc(sizeof(struct history));
memset(env->history, 0, sizeof(struct history));
env->last_save_history = env->history;
/* Allocate line buffer */
env->lines = malloc(sizeof(line_t *) * env->line_avail);
/* Initialize the first line */
env->lines[0] = calloc(sizeof(line_t) + sizeof(char_t) * 32, 1);
env->lines[0]->available = 32;
}
/**
* Toggle buffered / unbuffered modes
*/
struct termios old;
void get_initial_termios(void) {
tcgetattr(STDOUT_FILENO, &old);
}
void set_unbuffered(void) {
struct termios new = old;
new.c_iflag &= (~ICRNL) & (~IXON);
new.c_lflag &= (~ICANON) & (~ECHO) & (~ISIG);
#ifdef VLNEXT
new.c_cc[VLNEXT] = 0;
#endif
tcsetattr(STDOUT_FILENO, TCSAFLUSH, &new);
}
void set_buffered(void) {
tcsetattr(STDOUT_FILENO, TCSAFLUSH, &old);
}
/**
* Convert codepoint to utf-8 string
*/
int to_eight(uint32_t codepoint, char * out) {
memset(out, 0x00, 7);
if (codepoint < 0x0080) {
out[0] = (char)codepoint;
} else if (codepoint < 0x0800) {
out[0] = 0xC0 | (codepoint >> 6);
out[1] = 0x80 | (codepoint & 0x3F);
} else if (codepoint < 0x10000) {
out[0] = 0xE0 | (codepoint >> 12);
out[1] = 0x80 | ((codepoint >> 6) & 0x3F);
out[2] = 0x80 | (codepoint & 0x3F);
} else if (codepoint < 0x200000) {
out[0] = 0xF0 | (codepoint >> 18);
out[1] = 0x80 | ((codepoint >> 12) & 0x3F);
out[2] = 0x80 | ((codepoint >> 6) & 0x3F);
out[3] = 0x80 | ((codepoint) & 0x3F);
} else if (codepoint < 0x4000000) {
out[0] = 0xF8 | (codepoint >> 24);
out[1] = 0x80 | (codepoint >> 18);
out[2] = 0x80 | ((codepoint >> 12) & 0x3F);
out[3] = 0x80 | ((codepoint >> 6) & 0x3F);
out[4] = 0x80 | ((codepoint) & 0x3F);
} else {
out[0] = 0xF8 | (codepoint >> 30);
out[1] = 0x80 | ((codepoint >> 24) & 0x3F);
out[2] = 0x80 | ((codepoint >> 18) & 0x3F);
out[3] = 0x80 | ((codepoint >> 12) & 0x3F);
out[4] = 0x80 | ((codepoint >> 6) & 0x3F);
out[5] = 0x80 | ((codepoint) & 0x3F);
}
return strlen(out);
}
/**
* Get the presentation width of a codepoint
*/
int codepoint_width(wchar_t codepoint) {
if (codepoint == '\t') {
return 1; /* Recalculate later */
}
if (codepoint < 32) {
/* We render these as ^@ */
return 2;
}
if (codepoint == 0x7F) {
/* Renders as ^? */
return 2;
}
if (codepoint > 0x7f && codepoint < 0xa0) {
/* Upper control bytes <xx> */
return 4;
}
if (codepoint == 0xa0) {
/* Non-breaking space _ */
return 1;
}
/* Skip wcwidth for anything under 256 */
if (codepoint > 127) {
if (global_config.can_unicode) {
/* Higher codepoints may be wider (eg. Japanese) */
int out = wcwidth(codepoint);
if (out >= 1) return out;
}
/* Invalid character, render as [U+ABCD] or [U+ABCDEF] */
return (codepoint < 0x10000) ? 8 : 10;
}
return 1;
}
/**
* The following section contains methods for crafting terminal escapes
* for rendering the display. We do not use curses or any similar
* library, so we have to generate these sequences ourself based on
* some assumptions about the target terminal.
*/
/**
* Move the terminal cursor
*/
void place_cursor(int x, int y) {
printf("\033[%d;%dH", y, x);
}
/**
* Given two color codes from a theme, convert them to an escape
* sequence to set the foreground and background color. This allows
* us to support basic 16, xterm 256, and true color in themes.
*/
char * color_string(const char * fg, const char * bg) {
static char output[100];
char * t = output;
t += sprintf(t,"\033[22;23;");
if (*bg == '@') {
int _bg = atoi(bg+1);
if (_bg < 10) {
t += sprintf(t, "4%d;", _bg);
} else {
t += sprintf(t, "10%d;", _bg-10);
}
} else {
t += sprintf(t, "48;%s;", bg);
}
if (*fg == '@') {
int _fg = atoi(fg+1);
if (_fg < 10) {
t += sprintf(t, "3%dm", _fg);
} else {
t += sprintf(t, "9%dm", _fg-10);
}
} else {
t += sprintf(t, "38;%sm", fg);
}
return output;
}
/**
* Set text colors
*
* Normally, text colors are just strings, but if they
* start with @ they will be parsed as integers
* representing one of the 16 standard colors, suitable
* for terminals without support for the 256- or 24-bit
* color modes.
*/
void set_colors(const char * fg, const char * bg) {
printf("%s", color_string(fg, bg));
}
/**
* Set just the foreground color
*
* (See set_colors above)
*/
void set_fg_color(const char * fg) {
printf("\033[22;23;");
if (*fg == '@') {
int _fg = atoi(fg+1);
if (_fg < 10) {
printf("3%dm", _fg);
} else {
printf("9%dm", _fg-10);
}
} else {
printf("38;%sm", fg);
}
}
/**
* Clear the rest of this line
*/
void clear_to_end(void) {
if (global_config.can_bce) {
printf("\033[K");
}
}
/**
* For terminals without bce, prepaint the whole line, so we don't have to track
* where the cursor is for everything. Inefficient, but effective.
*/
void paint_line(const char * bg) {
if (!global_config.can_bce) {
set_colors(COLOR_FG, bg);
for (int i = 0; i < global_config.term_width; ++i) {
printf(" ");
}
printf("\r");
}
}
/**
* Enable bold text display
*/
void set_bold(void) {
printf("\033[1m");
}
/**
* Disable bold
*/
void unset_bold(void) {
printf("\033[22m");
}
/**
* Enable underlined text display
*/
void set_underline(void) {
printf("\033[4m");
}
/**
* Disable underlined text display
*/
void unset_underline(void) {
printf("\033[24m");
}
/**
* Reset text display attributes
*/
void reset(void) {
printf("\033[0m");
}
/**
* Clear the entire screen
*/
void clear_screen(void) {
printf("\033[H\033[2J");
}
/**
* Hide the cursor
*/
void hide_cursor(void) {
if (global_config.can_hideshow) {
printf("\033[?25l");
}
}
/**
* Show the cursor
*/
void show_cursor(void) {
if (global_config.can_hideshow) {
printf("\033[?25h");
}
}
/**
* Store the cursor position
*/
void store_cursor(void) {
printf("\0337");
}
/**
* Restore the cursor position.
*/
void restore_cursor(void) {
printf("\0338");
}
/**
* Request mouse events
*/
void mouse_enable(void) {
if (global_config.can_mouse) {
printf("\033[?1000h");
if (global_config.can_sgrmouse) {
printf("\033[?1006h");
}
}
}
/**
* Stop mouse events
*/
void mouse_disable(void) {
if (global_config.can_mouse) {
if (global_config.can_sgrmouse) {
printf("\033[?1006l");
}
printf("\033[?1000l");
}
}
/**
* Shift the screen up one line
*/
void shift_up(int amount) {
printf("\033[%dS", amount);
}
/**
* Shift the screen down one line.
*/
void shift_down(int amount) {
printf("\033[%dT", amount);
}
void insert_lines_at(int line, int count) {
place_cursor(1, line);
printf("\033[%dL", count);
}
void delete_lines_at(int line, int count) {
place_cursor(1, line);
printf("\033[%dM", count);
}
/**
* Switch to the alternate terminal screen.
*/
void set_alternate_screen(void) {
if (global_config.can_altscreen) {
printf("\033[?1049h");
}
}
/**
* Restore the standard terminal screen.
*/
void unset_alternate_screen(void) {
if (global_config.can_altscreen) {
printf("\033[?1049l");
}
}
/**
* Enable bracketed paste mode.
*/
void set_bracketed_paste(void) {
if (global_config.can_bracketedpaste) {
printf("\033[?2004h");
}
}
/**
* Disable bracketed paste mode.
*/
void unset_bracketed_paste(void) {
if (global_config.can_bracketedpaste) {
printf("\033[?2004l");
}
}
/**
* Get the name of just a file from a full path.
* Returns a pointer within the original string.
*
* Called in a few different places where the name of a file
* is needed from its full path, such as drawing tab names or
* building HTML files.
*/
char * file_basename(char * file) {
char * c = strrchr(file, '/');
if (!c) return file;
return (c+1);
}
/**
* Print a tab name with fixed width and modifiers
* into an output buffer and return the written width.
*/
int draw_tab_name(buffer_t * _env, char * out, int max_width, int * width) {
uint32_t c, state = 0;
char * t = _env->file_name ? file_basename(_env->file_name) : "[No Name]";
#define ADD(c) do { \
*o = c; \
o++; \
*o = '\0'; \
bytes++; \
} while (0)
char * o = out;
*o = '\0';
int bytes = 0;
if (max_width < 2) return 1;
ADD(' ');
(*width)++;
if (_env->modified) {
if (max_width < 4) return 1;
ADD('+');
(*width)++;
ADD(' ');
(*width)++;
}
while (*t) {
/* File names can definitely by UTF-8, and we need to
* understand their display width... */
if (!decode(&state, &c, (unsigned char)*t)) {
/* But our displayed tab name is also just stored
* as UTF-8 again, so we essentially rebuild it... */
char tmp[7];
int size = to_eight(c, tmp);
if (bytes + size > 62) break;
if (*width + size >= max_width) return 1;
for (int i = 0; i < size; ++i) {
ADD(tmp[i]);
}
(*width) += codepoint_width(c);
} else if (state == UTF8_REJECT) {
state = 0;
}
t++;
}
if (max_width == *width + 1) return 1;
ADD(' ');
(*width)++;
#undef ADD
return 0;
}
/**
* Redraw the tabbar, with a tab for each buffer.
*
* The active buffer is highlighted.
*/
void redraw_tabbar(void) {
if (!global_config.tabs_visible) return;
/* Hide cursor while rendering UI */
hide_cursor();
/* Move to upper left */
place_cursor(1,1);
paint_line(COLOR_TABBAR_BG);
/* For each buffer... */
int offset = 0;
if (global_config.tab_offset) {
set_colors(COLOR_NUMBER_FG, COLOR_NUMBER_BG);
printf("<");
offset++;
}
for (int i = global_config.tab_offset; i < buffers_len; i++) {
buffer_t * _env = buffers[i];
if (_env == env) {
/* If this is the active buffer, highlight it */
reset();
set_colors(COLOR_FG, COLOR_BG);
set_bold();
} else {
/* Otherwise use default tab color */
reset();
set_colors(COLOR_FG, COLOR_TAB_BG);
set_underline();
}
if (global_config.overlay_mode == OVERLAY_MODE_FILESEARCH) {
if (global_config.command_buffer->actual) {
char * f = _env->file_name ? file_basename(_env->file_name) : "";
/* TODO: Support unicode input here; needs conversion */
int i = 0;
for (; i < global_config.command_buffer->actual &&
f[i] == global_config.command_buffer->text[i].codepoint; ++i);
if (global_config.command_buffer->actual == i) {
set_colors(COLOR_SEARCH_FG, COLOR_SEARCH_BG);
}
}
}
char title[64];
int size = 0;
int filled = draw_tab_name(_env, title, global_config.term_width - offset, &size);
if (filled) {
offset += size;
printf("%s", title);
set_colors(COLOR_NUMBER_FG, COLOR_NUMBER_BG);
while (offset != global_config.term_width - 1) {
printf(" ");
offset++;
}
printf(">");
break;
}
printf("%s", title);
offset += size;
}
/* Reset bold/underline */
reset();
/* Fill the rest of the tab bar */
set_colors(COLOR_FG, COLOR_TABBAR_BG);
clear_to_end();
}
/**
* Braindead log10 implementation for figuring out the width of the
* line number column.
*/
int log_base_10(unsigned int v) {
int r = (v >= 1000000000) ? 9 : (v >= 100000000) ? 8 : (v >= 10000000) ? 7 :
(v >= 1000000) ? 6 : (v >= 100000) ? 5 : (v >= 10000) ? 4 :
(v >= 1000) ? 3 : (v >= 100) ? 2 : (v >= 10) ? 1 : 0;
return r;
}
/**
* Render a line of text.
*
* This handles rendering the actual text content. A full line of text
* also includes a line number and some padding, but those elements
* are rendered elsewhere; this method can be used for lines that are
* not attached to a buffer such as command input lines.
*
* width: width of the text display region (term width - line number width)
* offset: how many cells into the line to start rendering at
*/
void render_line(line_t * line, int width, int offset, int line_no) {
int i = 0; /* Offset in char_t line data entries */
int j = 0; /* Offset in terminal cells */
const char * last_color = NULL;
int was_selecting = 0, was_searching = 0, was_underlining = 0;
/* Set default text colors */
set_colors(COLOR_FG, line->is_current ? COLOR_ALT_BG : COLOR_BG);
/*
* When we are rendering in the middle of a wide character,
* we render -'s to fill the remaining amount of the character's width.
*/
int remainder = 0;
int is_spaces = 1;
/* For each character in the line ... */
while (i < line->actual) {
/* If there is remaining text... */
if (remainder) {
/* If we should be drawing by now... */
if (j >= offset) {
if (was_underlining) printf("\033[24m");
/* Fill remainder with -'s */
set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("-");
set_colors(COLOR_FG, line->is_current ? COLOR_ALT_BG : COLOR_BG);
}
/* One less remaining width cell to fill */
remainder--;
/* Terminal offset moves forward */
j++;
/*
* If this was the last remaining character, move to
* the next codepoint in the line
*/
if (remainder == 0) {
i++;
}
continue;
}
/* Get the next character to draw */
char_t c = line->text[i];
if (c.codepoint != ' ') is_spaces = 0;
/* If we should be drawing by now... */
if (j >= offset) {
/* If this character is going to fall off the edge of the screen... */
if (j - offset + c.display_width >= width) {
/* We draw this with special colors so it isn't ambiguous */
set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
if (was_underlining) printf("\033[24m");
/* If it's wide, draw ---> as needed */
while (j - offset < width - 1) {
printf("-");
j++;
}
/* End the line with a > to show it overflows */
printf(">");
set_colors(COLOR_FG, COLOR_BG);
return;
}
/* Syntax highlighting */
const char * color = flag_to_color(c.flags);
if (c.flags & FLAG_SELECT) {
if ((c.flags & FLAG_MASK_COLORS) == FLAG_NONE) color = COLOR_SELECTFG;
set_colors(color, COLOR_SELECTBG);
was_selecting = 1;
} else if ((c.flags & FLAG_SEARCH) || (c.flags == FLAG_NOTICE)) {
set_colors(COLOR_SEARCH_FG, COLOR_SEARCH_BG);
was_searching = 1;
} else if (c.flags == FLAG_ERROR) {
set_colors(COLOR_ERROR_FG, COLOR_ERROR_BG);
was_searching = 1; /* co-opting this should work... */
} else {
if (was_selecting || was_searching) {
was_selecting = 0;
was_searching = 0;
set_colors(color, line->is_current ? COLOR_ALT_BG : COLOR_BG);
last_color = color;
} else if (!last_color || strcmp(color, last_color)) {
set_fg_color(color);
last_color = color;
}
}
if ((c.flags & FLAG_UNDERLINE) && !was_underlining) {
printf("\033[4m");
was_underlining = 1;
} else if (!(c.flags & FLAG_UNDERLINE) && was_underlining) {
printf("\033[24m");
was_underlining = 0;
}
if ((env->mode == MODE_COL_SELECTION || env->mode == MODE_COL_INSERT) &&
line_no >= ((env->start_line < env->line_no) ? env->start_line : env->line_no) &&
line_no <= ((env->start_line < env->line_no) ? env->line_no : env->start_line) &&
((j == env->sel_col) ||
(j < env->sel_col && j + c.display_width > env->sel_col))) {
set_colors(COLOR_SELECTFG, COLOR_SELECTBG);
was_selecting = 1;
}
#define _set_colors(fg,bg) \
if (!(c.flags & FLAG_SELECT) && !(c.flags & FLAG_SEARCH) && !(was_selecting)) { \
set_colors(fg,(line->is_current && bg == COLOR_BG) ? COLOR_ALT_BG : bg); \
}
/* Render special characters */
if (c.codepoint == '\t') {
_set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("%s", global_config.tab_indicator);
for (int i = 1; i < c.display_width; ++i) {
printf("%s" ,global_config.space_indicator);
}
_set_colors(last_color ? last_color : COLOR_FG, COLOR_BG);
} else if (c.codepoint < 32) {
/* Codepoints under 32 to get converted to ^@ escapes */
_set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("^%c", '@' + c.codepoint);
_set_colors(last_color ? last_color : COLOR_FG, COLOR_BG);
} else if (c.codepoint == 0x7f) {
_set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("^?");
_set_colors(last_color ? last_color : COLOR_FG, COLOR_BG);
} else if (c.codepoint > 0x7f && c.codepoint < 0xa0) {
_set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("<%2x>", c.codepoint);
_set_colors(last_color ? last_color : COLOR_FG, COLOR_BG);
} else if (c.codepoint == 0xa0) {
_set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("_");
_set_colors(last_color ? last_color : COLOR_FG, COLOR_BG);
} else if (c.display_width == 8) {
_set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("[U+%04x]", c.codepoint);
_set_colors(last_color ? last_color : COLOR_FG, COLOR_BG);
} else if (c.display_width == 10) {
_set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("[U+%06x]", c.codepoint);
_set_colors(last_color ? last_color : COLOR_FG, COLOR_BG);
} else if (i > 0 && is_spaces && c.codepoint == ' ' && !(i % env->tabstop)) {
_set_colors(COLOR_ALT_FG, COLOR_BG); /* Normal background so this is more subtle */
if (global_config.can_unicode) {
printf("");
} else {
printf("|");
}
_set_colors(last_color ? last_color : COLOR_FG, COLOR_BG);
} else if (c.codepoint == ' ' && i == line->actual - 1) {
/* Special case: space at end of line */
_set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("%s",global_config.space_indicator);
_set_colors(COLOR_FG, COLOR_BG);
} else {
/* Normal characters get output */
char tmp[7]; /* Max six bytes, use 7 to ensure last is always nil */
to_eight(c.codepoint, tmp);
printf("%s", tmp);
}
/* Advance the terminal cell offset by the render width of this character */
j += c.display_width;
/* Advance to the next character */
i++;
} else if (c.display_width > 1) {
/*
* If this is a wide character but we aren't ready to render yet,
* we may need to draw some filler text for the remainder of its
* width to ensure we don't jump around when horizontally scrolling
* past wide characters.
*/
remainder = c.display_width - 1;
j++;
} else {
/* Regular character, not ready to draw, advance without doing anything */
j++;
i++;
}
}
if (was_underlining) printf("\033[24m");
/**
* Determine what color the rest of the line should be.
*/
if (env->mode != MODE_LINE_SELECTION) {
/* If we are not selecting, then use the normal background or highlight
* the current line if that feature is enabled. */
if (line->is_current) {
set_colors(COLOR_FG, COLOR_ALT_BG);
} else {
set_colors(COLOR_FG, COLOR_BG);
}
} else {
/* If this line was empty but was part of the selection, we didn't
* set the selection color already, so we need to do that here. */
if (!line->actual) {
if (env->line_no == line_no ||
(env->start_line > env->line_no &&
(line_no >= env->line_no && line_no <= env->start_line)) ||
(env->start_line < env->line_no &&
(line_no >= env->start_line && line_no <= env->line_no))) {
set_colors(COLOR_SELECTFG, COLOR_SELECTBG);
}
}
}
/**
* In column modes, we may need to draw a column select beyond the end
* of a given line, so we need to draw up to that point first.
*/
if ((env->mode == MODE_COL_SELECTION || env->mode == MODE_COL_INSERT) &&
line_no >= ((env->start_line < env->line_no) ? env->start_line : env->line_no) &&
line_no <= ((env->start_line < env->line_no) ? env->line_no : env->start_line) &&
j <= env->sel_col &&
env->sel_col < width) {
set_colors(COLOR_FG, COLOR_BG);
while (j < env->sel_col) {
printf(" ");
j++;
}
set_colors(COLOR_SELECTFG, COLOR_SELECTBG);
printf(" ");
j++;
set_colors(COLOR_FG, COLOR_BG);
}
/*
* `maxcolumn` renders the background outside of the requested line length
* in a different color, with a line at the border between the two.
*/
if (env->maxcolumn && line_no > -1 /* ensures we don't do this for command line */) {
/* Fill out the normal background */
if (j < offset) j = offset;
for (; j < width + offset && j < env->maxcolumn; ++j) {
printf(" ");
}
/* Draw the line */
if (j < width + offset && j == env->maxcolumn) {
j++;
set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
if (global_config.can_unicode) {
printf(""); /* Should this be configurable? */
} else {
printf("|");
}
}
/* Fill the rest with the alternate background color */
set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
}
/**
* Clear out the rest of the line. If we are the only buffer or the right split,
* and our terminal supports `bce`, we can just bce; otherwise write spaces
* until we reach the right side of the screen.
*/
if (global_config.can_bce && (line_no == -1 || env->left + env->width == global_config.term_width)) {
clear_to_end();
} else {
/* Paint the rest of the line */
if (j < offset) j = offset;
for (; j < width + offset; ++j) {
printf(" ");
}
}
}
/**
* Get the width of the line number region
*/
int num_width(void) {
if (!env->numbers) return 0;
int w = log_base_10(env->line_count) + 3;
if (w < 4) return 4;
return w;
}
/**
* Display width of the revision status gutter.
*/
int gutter_width(void) {
return env->gutter;
}
/**
* Draw the gutter and line numbers.
*/
void draw_line_number(int x) {
if (!env->numbers) return;
/* Draw the line number */
if (env->lines[x]->is_current) {
set_colors(COLOR_NUMBER_BG, COLOR_NUMBER_FG);
} else {
set_colors(COLOR_NUMBER_FG, COLOR_NUMBER_BG);
}
if (global_config.relative_lines && x+1 != env->line_no) {
x = x+1 - env->line_no;
x = ((x < 0) ? -x : x)-1;
}
int num_size = num_width() - 2; /* Padding */
for (int y = 0; y < num_size - log_base_10(x + 1); ++y) {
printf(" ");
}
printf("%d%c", x + 1, ((x+1 == env->line_no || global_config.horizontal_shift_scrolling) && env->coffset > 0) ? '<' : ' ');
}
/**
* Used to highlight the current line after moving the cursor.
*/
void recalculate_current_line(void) {
int something_changed = 0;
if (global_config.highlight_current_line) {
for (int i = 0; i < env->line_count; ++i) {
if (env->lines[i]->is_current && i != env->line_no-1) {
env->lines[i]->is_current = 0;
something_changed = 1;
redraw_line(i);
} else if (i == env->line_no-1 && !env->lines[i]->is_current) {
env->lines[i]->is_current = 1;
something_changed = 1;
redraw_line(i);
}
}
} else {
something_changed = 1;
}
if (something_changed && global_config.relative_lines) {
for (int i = env->offset; i < env->offset + global_config.term_height - global_config.bottom_size - 1 && i < env->line_count; ++i) {
/* Place cursor for line number */
place_cursor(1 + gutter_width() + env->left, (i)-env->offset + 1 + global_config.tabs_visible);
draw_line_number(i);
}
}
}
/**
* Redraw line.
*
* This draws the line number as well as the actual text.
*/
void redraw_line(int x) {
if (env->loading) return;
/* Determine if this line is visible. */
if (x - env->offset < 0 || x - env->offset > global_config.term_height - global_config.bottom_size - 1 - global_config.tabs_visible) {
return;
}
/* Calculate offset in screen */
int j = x - env->offset;
/* Hide cursor when drawing */
hide_cursor();
/* Move cursor to upper left most cell of this line */
place_cursor(1 + env->left,1 + global_config.tabs_visible + j);
/* Draw a gutter on the left. */
if (env->gutter) {
switch (env->lines[x]->rev_status) {
case 1:
set_colors(COLOR_NUMBER_FG, COLOR_GREEN);
printf(" ");
break;
case 2:
set_colors(COLOR_NUMBER_FG, global_config.color_gutter ? COLOR_SEARCH_BG : COLOR_ALT_FG);
printf(" ");
break;
case 3:
set_colors(COLOR_NUMBER_FG, COLOR_KEYWORD);
printf(" ");
break;
case 4:
set_colors(COLOR_ALT_FG, COLOR_RED);
printf("");
break;
case 5:
set_colors(COLOR_KEYWORD, COLOR_RED);
printf("");
break;
default:
set_colors(COLOR_NUMBER_FG, COLOR_ALT_FG);
printf(" ");
break;
}
}
draw_line_number(x);
int should_shift = x + 1 == env->line_no || global_config.horizontal_shift_scrolling ||
((env->mode == MODE_COL_SELECTION || env->mode == MODE_COL_INSERT) &&
x + 1 >= ((env->start_line < env->line_no) ? env->start_line : env->line_no) &&
x + 1 <= ((env->start_line < env->line_no) ? env->line_no : env->start_line));
/*
* Draw the line text
* If this is the active line, the current character cell offset should be used.
* (Non-active lines are not shifted and always render from the start of the line)
*/
render_line(env->lines[x], env->width - gutter_width() - num_width(), should_shift ? env->coffset : 0, x+1);
}
/**
* Draw a ~ line where there is no buffer text.
*/
void draw_excess_line(int j) {
place_cursor(1+env->left,1 + global_config.tabs_visible + j);
paint_line(COLOR_ALT_BG);
set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("~");
if (env->left + env->width == global_config.term_width && global_config.can_bce) {
clear_to_end();
} else {
/* Paint the rest of the line */
for (int x = 1; x < env->width; ++x) {
printf(" ");
}
}
}
/**
* Redraw the entire text area
*/
void redraw_text(void) {
if (!env) return;
if (!global_config.has_terminal) return;
/* Hide cursor while rendering */
hide_cursor();
/* Figure out the available size of the text region */
int l = global_config.term_height - global_config.bottom_size - global_config.tabs_visible;
int j = 0;
/* Draw each line */
for (int x = env->offset; j < l && x < env->line_count; x++) {
redraw_line(x);
j++;
}
/* Draw the rest of the text region as ~ lines */
for (; j < l; ++j) {
draw_excess_line(j);
}
}
static int view_left_offset = 0;
static int view_right_offset = 0;
/**
* When in split view, draw the other buffer.
* Has special handling for when the split is
* on a single buffer.
*/
void redraw_alt_buffer(buffer_t * buf) {
if (left_buffer == right_buffer) {
/* draw the opposite view */
int left, width, offset;
left = env->left;
width = env->width;
offset = env->offset;
if (left == 0) {
/* Draw the right side */
env->left = width;
env->width = global_config.term_width - width;
env->offset = view_right_offset;
view_left_offset = offset;
} else {
env->left = 0;
env->width = global_config.term_width * global_config.split_percent / 100;
env->offset = view_left_offset;
view_right_offset = offset;
}
redraw_text();
env->left = left;
env->width = width;
env->offset = offset;
}
/* Swap out active buffer */
buffer_t * tmp = env;
env = buf;
/* Redraw text */
redraw_text();
/* Return original active buffer */
env = tmp;
}
/**
* Basically wcswidth() but implemented internally using our
* own utf-8 decoder to ensure it works properly.
*/
int display_width_of_string(const char * str) {
uint8_t * s = (uint8_t *)str;
int out = 0;
uint32_t c, state = 0;
while (*s) {
if (!decode(&state, &c, *s)) {
out += codepoint_width(c);
} else if (state == UTF8_REJECT) {
state = 0;
}
s++;
}
return out;
}
void statusbar_append_status(int *remaining_width, size_t *filled, char * output, char * base, ...) {
va_list args;
va_start(args, base);
char tmp[100] = {0}; /* should be big enough */
vsnprintf(tmp, 100, base, args);
va_end(args);
int width = display_width_of_string(tmp) + 2;
size_t totalWidth = strlen(tmp);
totalWidth += strlen(color_string(COLOR_STATUS_ALT, COLOR_STATUS_BG));
totalWidth += strlen(color_string(COLOR_STATUS_FG, COLOR_STATUS_BG));
totalWidth += strlen(color_string(COLOR_STATUS_ALT, COLOR_STATUS_BG));
totalWidth += 3;
if (totalWidth + *filled >= 2047) {
return;
}
if (width < *remaining_width) {
strcat(output,color_string(COLOR_STATUS_ALT, COLOR_STATUS_BG));
strcat(output,"[");
strcat(output,color_string(COLOR_STATUS_FG, COLOR_STATUS_BG));
strcat(output, tmp);
strcat(output,color_string(COLOR_STATUS_ALT, COLOR_STATUS_BG));
strcat(output,"]");
(*remaining_width) -= width;
(*filled) += totalWidth;
}
}
int statusbar_build_right(char * right_hand) {
char tmp[1024] = {0};
sprintf(tmp, " Line %d/%d Col: %d ", env->line_no, env->line_count, env->col_no);
int out = display_width_of_string(tmp);
char * s = right_hand;
s += sprintf(s, "%s", color_string(COLOR_STATUS_ALT, COLOR_STATUS_BG));
s += sprintf(s, " Line ");
s += sprintf(s, "%s", color_string(COLOR_STATUS_FG, COLOR_STATUS_BG));
s += sprintf(s, "%d/%d ", env->line_no, env->line_count);
s += sprintf(s, "%s", color_string(COLOR_STATUS_ALT, COLOR_STATUS_BG));
s += sprintf(s, " Col: ");
s += sprintf(s, "%s", color_string(COLOR_STATUS_FG, COLOR_STATUS_BG));
s += sprintf(s, "%d ", env->col_no);
return out;
}
/**
* Draw the status bar
*
* The status bar shows the name of the file, whether it has modifications,
* and (in the future) what syntax highlighting mode is enabled.
*
* The right side of the status bar shows the line number and column.
*/
void redraw_statusbar(void) {
if (global_config.hide_statusbar) return;
if (!global_config.has_terminal) return;
if (!env) return;
/* Hide cursor while rendering */
hide_cursor();
/* Move cursor to the status bar line (second from bottom */
place_cursor(1, global_config.term_height - 1);
/* Set background colors for status line */
paint_line(COLOR_STATUS_BG);
set_colors(COLOR_STATUS_FG, COLOR_STATUS_BG);
/* Pre-render the right hand side of the status bar */
char right_hand[1024] = {0};
int right_width = statusbar_build_right(right_hand);
char status_bits[2048] = {0}; /* Sane maximum */
size_t filled = 0;
int remaining_width = global_config.term_width - right_width;
#define ADD(...) do { statusbar_append_status(&remaining_width, &filled, status_bits, __VA_ARGS__); } while (0)
if (env->syntax) {
ADD("%s",env->syntax->name);
}
/* Print file status indicators */
if (env->modified) {
ADD("+");
}
if (env->readonly) {
ADD("ro");
}
if (env->crnl) {
ADD("crnl");
}
if (env->tabs) {
ADD("tabs");
} else {
ADD("spaces=%d", env->tabstop);
}
if (global_config.yanks) {
ADD("y:%ld", global_config.yank_count);
}
if (env->indent) {
ADD("indent");
}
if (global_config.smart_complete) {
ADD("complete");
}
if (global_config.background_task) {
ADD("working");
}
#undef ADD
uint8_t * file_name = (uint8_t *)(env->file_name ? env->file_name : "[No Name]");
int file_name_width = display_width_of_string((char*)file_name);
if (remaining_width > 3) {
int is_chopped = 0;
while (remaining_width < file_name_width + 3) {
is_chopped = 1;
if ((*file_name & 0xc0) == 0xc0) { /* First byte of a multibyte character */
file_name++;
while ((*file_name & 0xc0) == 0x80) file_name++;
} else {
file_name++;
}
file_name_width = display_width_of_string((char*)file_name);
}
if (is_chopped) {
set_colors(COLOR_ALT_FG, COLOR_STATUS_BG);
printf("<");
}
set_colors(COLOR_STATUS_FG, COLOR_STATUS_BG);
printf("%s ", file_name);
}
printf("%s", status_bits);
/* Clear the rest of the status bar */
clear_to_end();
/* Move the cursor appropriately to draw it */
place_cursor(global_config.term_width - right_width, global_config.term_height - 1);
set_colors(COLOR_STATUS_FG, COLOR_STATUS_BG);
printf("%s",right_hand);
}
/**
* Redraw the navigation numbers on the right side of the command line
*/
void redraw_nav_buffer(void) {
if (!global_config.has_terminal) return;
if (nav_buffer) {
store_cursor();
place_cursor(global_config.term_width - nav_buffer - 2, global_config.term_height);
printf("%s", nav_buf);
clear_to_end();
restore_cursor();
}
}
/**
* Draw the command line
*
* The command line either has input from the user (:quit, :!make, etc.)
* or shows the INSERT (or VISUAL in the future) mode name.
*/
void redraw_commandline(void) {
if (!global_config.has_terminal) return;
if (!env) return;
/* Hide cursor while rendering */
hide_cursor();
/* Move cursor to the last line */
place_cursor(1, global_config.term_height);
/* Set background color */
paint_line(COLOR_BG);
set_colors(COLOR_FG, COLOR_BG);
/* If we are in an edit mode, note that. */
if (env->mode == MODE_INSERT) {
set_bold();
printf("-- INSERT --");
clear_to_end();
unset_bold();
} else if (env->mode == MODE_LINE_SELECTION) {
set_bold();
printf("-- LINE SELECTION -- (%d:%d)",
(env->start_line < env->line_no) ? env->start_line : env->line_no,
(env->start_line < env->line_no) ? env->line_no : env->start_line
);
clear_to_end();
unset_bold();
} else if (env->mode == MODE_COL_SELECTION) {
set_bold();
printf("-- COL SELECTION -- (%d:%d %d)",
(env->start_line < env->line_no) ? env->start_line : env->line_no,
(env->start_line < env->line_no) ? env->line_no : env->start_line,
(env->sel_col)
);
clear_to_end();
unset_bold();
} else if (env->mode == MODE_COL_INSERT) {
set_bold();
printf("-- COL INSERT -- (%d:%d %d)",
(env->start_line < env->line_no) ? env->start_line : env->line_no,
(env->start_line < env->line_no) ? env->line_no : env->start_line,
(env->sel_col)
);
clear_to_end();
unset_bold();
} else if (env->mode == MODE_REPLACE) {
set_bold();
printf("-- REPLACE --");
clear_to_end();
unset_bold();
} else if (env->mode == MODE_CHAR_SELECTION) {
set_bold();
printf("-- CHAR SELECTION -- ");
clear_to_end();
unset_bold();
} else if (env->mode == MODE_DIRECTORY_BROWSE) {
set_bold();
printf("-- DIRECTORY BROWSE --");
clear_to_end();
unset_bold();
} else {
clear_to_end();
}
redraw_nav_buffer();
}
/**
* Draw a message on the command line.
*/
void render_commandline_message(char * message, ...) {
/* varargs setup */
va_list args;
va_start(args, message);
/* Hide cursor while rendering */
hide_cursor();
/* Move cursor to the last line */
place_cursor(1, global_config.term_height);
/* Set background color */
paint_line(COLOR_BG);
set_colors(COLOR_FG, COLOR_BG);
vprintf(message, args);
va_end(args);
/* Clear the rest of the status bar */
clear_to_end();
redraw_nav_buffer();
}
BIM_ACTION(redraw_all, 0,
"Repaint the screen."
,void) {
if (!env) return;
redraw_tabbar();
redraw_text();
if (left_buffer) {
redraw_alt_buffer(left_buffer == env ? right_buffer : left_buffer);
}
redraw_statusbar();
redraw_commandline();
if (global_config.overlay_mode == OVERLAY_MODE_COMMAND ||
global_config.overlay_mode == OVERLAY_MODE_SEARCH ||
global_config.overlay_mode == OVERLAY_MODE_FILESEARCH) {
render_command_input_buffer();
}
}
void pause_for_key(void) {
int c;
while ((c = bim_getch())== -1);
bim_unget(c);
redraw_all();
}
/**
* Redraw all screen elements except the other split view.
*/
void redraw_most(void) {
redraw_tabbar();
redraw_text();
redraw_statusbar();
redraw_commandline();
}
/**
* Disable screen splitting.
*/
void unsplit(void) {
if (left_buffer) {
left_buffer->left = 0;
left_buffer->width = global_config.term_width;
}
if (right_buffer) {
right_buffer->left = 0;
right_buffer->width = global_config.term_width;
}
left_buffer = NULL;
right_buffer = NULL;
redraw_all();
}
/**
* Update the terminal title bar
*/
void update_title(void) {
if (!global_config.can_title) return;
char cwd[1024] = {'/',0};
getcwd(cwd, 1024);
for (int i = 1; i < 3; ++i) {
printf("\033]%d;%s%s (%s) - Bim\007", i, env->file_name ? env->file_name : "[No Name]", env->modified ? " +" : "", cwd);
}
}
/**
* Mark this buffer as modified and
* redraw the status and tabbar if needed.
*/
void set_modified(void) {
/* If it was already marked modified, no need to do anything */
if (env->modified) return;
/* Mark as modified */
env->modified = 1;
/* Redraw some things */
update_title();
redraw_tabbar();
redraw_statusbar();
}
/**
* Draw a message on the status line
*/
void render_status_message(char * message, ...) {
if (!env) return; /* Don't print when there's no active environment; this usually means a bimrc command tried to print something */
/* varargs setup */
va_list args;
va_start(args, message);
/* Hide cursor while rendering */
hide_cursor();
/* Move cursor to the status bar line (second from bottom */
place_cursor(1, global_config.term_height - 1);
/* Set background colors for status line */
paint_line(COLOR_STATUS_BG);
set_colors(COLOR_STATUS_FG, COLOR_STATUS_BG);
/* Process format string */
vprintf(message, args);
va_end(args);
/* Clear the rest of the status bar */
clear_to_end();
}
/**
* Draw an error message to the command line.
*/
void render_error(char * message, ...) {
/* varargs setup */
va_list args;
va_start(args, message);
if (env) {
/* Hide cursor while rendering */
hide_cursor();
/* Move cursor to the command line */
place_cursor(1, global_config.term_height);
/* Set appropriate error message colors */
set_colors(COLOR_ERROR_FG, COLOR_ERROR_BG);
/* Draw the message */
vprintf(message, args);
va_end(args);
global_config.had_error = 1;
} else {
printf("bim: error during startup: ");
vprintf(message, args);
va_end(args);
printf("\n");
}
}
char * paren_pairs = "()[]{}<>";
int is_paren(int c) {
char * p = paren_pairs;
while (*p) {
if (c == *p) return 1;
p++;
}
return 0;
}
#define _rehighlight_parens() do { \
if (i < 0 || i >= env->line_count) break; \
for (int j = 0; j < env->lines[i]->actual; ++j) { \
if (i == line-1 && j == col-1) { \
env->lines[line-1]->text[col-1].flags |= FLAG_SELECT; \
continue; \
} else { \
env->lines[i]->text[j].flags &= (~FLAG_SELECT); \
} \
} \
redraw_line(i); \
} while (0)
/**
* If the config option is enabled, find the matching
* paren character and highlight it with the SELECT
* colors, clearing out other SELECT values. As we
* co-opt the SELECT flag, don't do this in selection
* modes - only in normal and insert modes.
*/
void highlight_matching_paren(void) {
if (env->mode == MODE_LINE_SELECTION || env->mode == MODE_CHAR_SELECTION) return;
if (!global_config.highlight_parens) return;
int line = -1, col = -1;
if (env->line_no <= env->line_count && env->col_no <= env->lines[env->line_no-1]->actual &&
is_paren(env->lines[env->line_no-1]->text[env->col_no-1].codepoint)) {
find_matching_paren(&line, &col, 1);
} else if (env->line_no <= env->line_count && env->col_no > 1 && is_paren(env->lines[env->line_no-1]->text[env->col_no-2].codepoint)) {
find_matching_paren(&line, &col, 2);
}
if (env->highlighting_paren == -1 && line == -1) return;
if (env->highlighting_paren > 0) {
int i = env->highlighting_paren - 1;
_rehighlight_parens();
}
if (env->highlighting_paren != line && line != -1) {
int i = line - 1;
_rehighlight_parens();
}
env->highlighting_paren = line;
}
/**
* Recalculate syntax for the matched paren.
* Useful when entering selection modes.
*/
void unhighlight_matching_paren(void) {
if (env->highlighting_paren > 0 && env->highlighting_paren <= env->line_count) {
for (int i = 0; i < env->line_count; i++) {
for (int j = 0; j < env->lines[i]->actual; ++j) {
env->lines[i]->text[j].flags &= ~(FLAG_SELECT);
}
}
env->highlighting_paren = -1;
}
}
/**
* Move the cursor to the appropriate location based
* on where it is in the text region.
*
* This does some additional math to set the text
* region horizontal offset.
*/
void place_cursor_actual(void) {
/* Invalid positions */
if (env->line_no < 1) env->line_no = 1;
if (env->col_no < 1) env->col_no = 1;
/* Account for the left hand gutter */
int num_size = num_width() + gutter_width();
int x = num_size + 1 - env->coffset;
/* Determine where the cursor is physically */
for (int i = 0; i < env->col_no - 1; ++i) {
char_t * c = &env->lines[env->line_no-1]->text[i];
x += c->display_width;
}
/* y is a bit easier to calculate */
int y = env->line_no - env->offset + 1;
int needs_redraw = 0;
while (y < 2 + global_config.cursor_padding && env->offset > 0) {
y++;
env->offset--;
needs_redraw = 1;
}
while (y > 1 + global_config.term_height - global_config.bottom_size - global_config.cursor_padding - global_config.tabs_visible) {
y--;
env->offset++;
needs_redraw = 1;
}
if (needs_redraw) {
redraw_text();
redraw_tabbar();
redraw_statusbar();
redraw_commandline();
}
/* If the cursor has gone off screen to the right... */
if (x > env->width - 1) {
/* Adjust the offset appropriately to scroll horizontally */
int diff = x - (env->width - 1);
env->coffset += diff;
x -= diff;
redraw_text();
}
/* Same for scrolling horizontally to the left */
if (x < num_size + 1) {
int diff = (num_size + 1) - x;
env->coffset -= diff;
x += diff;
redraw_text();
}
highlight_matching_paren();
recalculate_current_line();
/* Move the actual terminal cursor */
place_cursor(x+env->left,y - !global_config.tabs_visible);
/* Show the cursor */
show_cursor();
}
/**
* If the screen is split, update the split sizes based
* on the new terminal width and the user's split_percent setting.
*/
void update_split_size(void) {
if (!left_buffer) return;
if (left_buffer == right_buffer) {
if (left_buffer->left == 0) {
left_buffer->width = global_config.term_width * global_config.split_percent / 100;
} else {
right_buffer->left = global_config.term_width * global_config.split_percent / 100;
right_buffer->width = global_config.term_width - right_buffer->left;
}
return;
}
left_buffer->left = 0;
left_buffer->width = global_config.term_width * global_config.split_percent / 100;
right_buffer->left = left_buffer->width;
right_buffer->width = global_config.term_width - left_buffer->width;
}
/**
* Update screen size
*/
void update_screen_size(void) {
struct winsize w;
ioctl(STDOUT_FILENO, TIOCGWINSZ, &w);
global_config.term_width = w.ws_col;
global_config.term_height = w.ws_row;
if (env) {
if (left_buffer) {
update_split_size();
} else if (env != left_buffer && env != right_buffer) {
env->width = w.ws_col;
}
}
for (int i = 0; i < buffers_len; ++i) {
if (buffers[i] != left_buffer && buffers[i] != right_buffer) {
buffers[i]->width = w.ws_col;
}
}
}
/**
* Handle terminal size changes
*/
void SIGWINCH_handler(int sig) {
(void)sig;
update_screen_size();
redraw_all();
signal(SIGWINCH, SIGWINCH_handler);
}
/**
* Handle suspend
*/
void SIGTSTP_handler(int sig) {
(void)sig;
mouse_disable();
set_buffered();
reset();
clear_screen();
show_cursor();
unset_bracketed_paste();
unset_alternate_screen();
fflush(stdout);
signal(SIGTSTP, SIG_DFL);
raise(SIGTSTP);
}
void SIGCONT_handler(int sig) {
(void)sig;
set_alternate_screen();
set_bracketed_paste();
set_unbuffered();
update_screen_size();
mouse_enable();
redraw_all();
update_title();
signal(SIGCONT, SIGCONT_handler);
signal(SIGTSTP, SIGTSTP_handler);
}
void SIGINT_handler(int sig) {
krk_currentThread.flags |= KRK_THREAD_SIGNALLED;
signal(SIGINT, SIGINT_handler);
}
void try_to_center(void) {
int half_a_screen = (global_config.term_height - 3) / 2;
if (half_a_screen < env->line_no) {
env->offset = env->line_no - half_a_screen;
} else {
env->offset = 0;
}
}
BIM_ACTION(suspend, 0,
"Suspend bim and the rest of the job it was run in."
,void) {
kill(0, SIGTSTP);
}
/**
* Move the cursor to a specific line.
*/
BIM_ACTION(goto_line, ARG_IS_CUSTOM,
"Jump to the requested line."
,int line) {
if (line == -1) line = env->line_count;
/* Respect file bounds */
if (line < 1) line = 1;
if (line > env->line_count) line = env->line_count;
/* Move the cursor / text region offsets */
env->coffset = 0;
env->line_no = line;
env->col_no = 1;
if (!env->loading) {
if (line > env->offset && line < env->offset + global_config.term_height - global_config.bottom_size) {
place_cursor_actual();
} else {
try_to_center();
}
redraw_most();
} else {
try_to_center();
}
}
/**
* Process (part of) a file and add it to a buffer.
*/
void add_buffer(uint8_t * buf, int size) {
for (int i = 0; i < size; ++i) {
if (!decode(&state, &codepoint_r, buf[i])) {
uint32_t c = codepoint_r;
if (c == '\n') {
if (!env->crnl && env->lines[env->line_no-1]->actual && env->lines[env->line_no-1]->text[env->lines[env->line_no-1]->actual-1].codepoint == '\r') {
env->lines[env->line_no-1]->actual--;
env->crnl = 1;
}
env->lines = add_line(env->lines, env->line_no);
env->col_no = 1;
env->line_no += 1;
} else if (env->crnl && c == '\r') {
continue;
} else {
char_t _c;
_c.codepoint = (uint32_t)c;
_c.flags = 0;
_c.display_width = codepoint_width((wchar_t)c);
line_t * line = env->lines[env->line_no - 1];
line_t * nline = line_insert(line, _c, env->col_no - 1, env->line_no-1);
if (line != nline) {
env->lines[env->line_no - 1] = nline;
}
env->col_no += 1;
}
} else if (state == UTF8_REJECT) {
state = 0;
}
}
}
/**
* Add a raw string to a buffer. Convenience wrapper
* for add_buffer for nil-terminated strings.
*/
void add_string(char * string) {
add_buffer((uint8_t*)string,strlen(string));
}
int str_ends_with(const char * haystack, const char * needle) {
int i = strlen(haystack);
int j = strlen(needle);
do {
if (haystack[i] != needle[j]) return 0;
if (j == 0) return 1;
if (i == 0) return 0;
i--;
j--;
} while (1);
}
/**
* Find a syntax highlighter for the given filename.
*/
struct syntax_definition * match_syntax(char * file) {
for (struct syntax_definition * s = syntaxes; syntaxes && s->name; ++s) {
for (char ** ext = s->ext; *ext; ++ext) {
if (str_ends_with(file, *ext)) return s;
}
}
return NULL;
}
/**
* Set the syntax configuration by the name of the syntax highlighter.
*/
void set_syntax_by_name(const char * name) {
if (!strcmp(name,"none")) {
for (int i = 0; i < env->line_count; ++i) {
env->lines[i]->istate = -1;
for (int j = 0; j < env->lines[i]->actual; ++j) {
env->lines[i]->text[j].flags &= (3 << 5);
}
}
env->syntax = NULL;
redraw_all();
return;
}
for (struct syntax_definition * s = syntaxes; syntaxes && s->name; ++s) {
if (!strcmp(name,s->name)) {
env->syntax = s;
for (int i = 0; i < env->line_count; ++i) {
env->lines[i]->istate = -1;
}
schedule_complete_recalc();
redraw_all();
return;
}
}
render_error("unrecognized syntax type");
}
/**
* Check if a string is all numbers.
*/
int is_all_numbers(const char * c) {
while (*c) {
if (!isdigit(*c)) return 0;
c++;
}
return 1;
}
struct file_listing {
int type;
char * filename;
};
int sort_files(const void * a, const void * b) {
struct file_listing * _a = (struct file_listing *)a;
struct file_listing * _b = (struct file_listing *)b;
if (_a->type == _b->type) {
return strcmp(_a->filename, _b->filename);
} else {
return _a->type - _b->type;
}
}
void read_directory_into_buffer(char * file) {
DIR * dirp = opendir(file);
if (!dirp) {
env->loading = 0;
return;
}
add_string("# Directory listing for `");
add_string(file);
add_string("`\n");
/* Flexible array to hold directory contents */
int available = 32;
int count = 0;
struct file_listing * files = calloc(sizeof(struct file_listing), available);
/* Read directory */
struct dirent * ent = readdir(dirp);
while (ent) {
struct stat statbuf;
char * tmp = malloc(strlen(file) + 1 + strlen(ent->d_name) + 1);
snprintf(tmp, strlen(file) + 1 + strlen(ent->d_name) + 1, "%s/%s", file, ent->d_name);
stat(tmp, &statbuf);
int type = (S_ISDIR(statbuf.st_mode)) ? 'd' : 'f';
if (count + 1 == available) {
available *= 2; \
files = realloc(files, sizeof(struct file_listing) * available); \
} \
files[count].type = type;
files[count].filename = strdup(ent->d_name);
count++;
ent = readdir(dirp);
free(tmp);
}
closedir(dirp);
/* Sort directory entries */
qsort(files, count, sizeof(struct file_listing), sort_files);
for (int i = 0; i < count; ++i) {
add_string(files[i].type == 'd' ? "d" : "f");
add_string(" ");
add_string(files[i].filename);
add_string("\n");
free(files[i].filename);
}
free(files);
env->file_name = strdup(file);
env->syntax = find_syntax_calculator("dirent");
schedule_complete_recalc();
env->readonly = 1;
env->loading = 0;
env->mode = MODE_DIRECTORY_BROWSE;
env->line_no = 1;
redraw_all();
}
BIM_ACTION(open_file_from_line, 0,
"When browsing a directory, open the file under the cursor."
,void) {
if (env->lines[env->line_no-1]->actual < 1) return;
if (env->lines[env->line_no-1]->text[0].codepoint != 'd' &&
env->lines[env->line_no-1]->text[0].codepoint != 'f') return;
/* Collect file name */
char * tmp = malloc(strlen(env->file_name) + 1 + env->lines[env->line_no-1]->actual * 7); /* Should be enough */
memset(tmp, 0, strlen(env->file_name) + 1 + env->lines[env->line_no-1]->actual * 7);
char * t = tmp;
/* Start by copying the filename */
t += sprintf(t, "%s/", env->file_name);
/* Start from character 2 to skip d/f and space */
for (int i = 2; i < env->lines[env->line_no-1]->actual; ++i) {
t += to_eight(env->lines[env->line_no-1]->text[i].codepoint, t);
}
*t = '\0';
/* Normalize */
char tmp_path[PATH_MAX+1];
if (!realpath(tmp, tmp_path)) {
free(tmp);
return;
}
free(tmp);
/* Open file */
buffer_t * old_buffer = env;
open_file(tmp_path);
buffer_close(old_buffer);
update_title();
redraw_all();
}
int line_matches(line_t * line, char * string) {
uint32_t c = 0, state = 0;
int i = 0;
while (*string) {
if (!decode(&state, &c, *string)) {
if (i >= line->actual) return 0;
if (line->text[i].codepoint != c) return 0;
string++;
i++;
} else if (state == UTF8_REJECT) {
state = 0;
}
}
return 1;
}
void run_onload(buffer_t * env) {
/* TODO */
KrkValue onLoad;
if (krk_tableGet_fast(&krk_currentThread.module->fields, S("onload"), &onLoad)) {
krk_push(onLoad);
krk_push(krk_dict_of(0,NULL,0));
if (env->file_name) {
krk_attachNamedObject(AS_DICT(krk_peek(0)), "filename",
(KrkObj*)krk_copyString(env->file_name,strlen(env->file_name)));
}
if (env->syntax && env->syntax->krkClass) {
krk_attachNamedObject(AS_DICT(krk_peek(0)), "highlighter",
(KrkObj*)env->syntax->krkClass);
}
krk_callStack(1);
krk_resetStack();
}
}
static void render_syntax_async(background_task_t * task) {
buffer_t * old_env = env;
env = task->env;
int line_no = task->_private_i;
if (env->line_count && line_no < env->line_count) {
int tmp = env->loading;
env->loading = 1;
recalculate_syntax(env->lines[line_no], line_no);
env->loading = tmp;
if (env == old_env) {
redraw_line(line_no);
}
}
env = old_env;
}
static void schedule_complete_recalc(void) {
if (env->line_count < 1000) {
for (int i = 0; i < env->line_count; ++i) {
recalculate_syntax(env->lines[i], i);
}
return;
}
/* TODO see if there's already a redraw scheduled */
for (int i = 0; i < env->line_count; ++i) {
background_task_t * task = malloc(sizeof(background_task_t));
task->env = env;
task->_private_i = i;
task->func = render_syntax_async;
task->next = NULL;
if (global_config.tail_task) {
global_config.tail_task->next = task;
}
global_config.tail_task = task;
if (!global_config.background_task) {
global_config.background_task = task;
}
}
redraw_statusbar();
}
/**
* Create a new buffer from a file.
*/
void open_file(char * file) {
env = buffer_new();
env->width = global_config.term_width;
env->left = 0;
env->loading = 1;
setup_buffer(env);
FILE * f;
int init_line = -1;
if (!strcmp(file,"-")) {
/**
* Read file from stdin. stderr provides terminal input.
*/
if (isatty(STDIN_FILENO)) {
if (buffers_len == 1) {
quit("stdin is a terminal and you tried to open -; not letting you do that");
}
close_buffer();
render_error("stdin is a terminal and you tried to open -; not letting you do that");
return;
}
f = stdin;
env->modified = 1;
} else {
char * l = strrchr(file, ':');
if (l && is_all_numbers(l+1)) {
*l = '\0';
l++;
init_line = atoi(l);
}
char * _file = file;
if (file[0] == '~') {
char * home = getenv("HOME");
if (home) {
_file = malloc(strlen(file) + strlen(home) + 4); /* Paranoia */
sprintf(_file, "%s%s", home, file+1);
}
}
if (file_is_open(_file)) {
if (file != _file) free(_file);
close_buffer();
return;
}
struct stat statbuf;
if (!stat(_file, &statbuf) && S_ISDIR(statbuf.st_mode)) {
read_directory_into_buffer(_file);
if (file != _file) free(_file);
return;
}
f = fopen(_file, "r");
if (file != _file) free(_file);
if (!f && errno != ENOENT) {
render_error("%s: %s", file, strerror(errno));
pause_for_key();
close_buffer();
return;
}
env->file_name = strdup(file);
}
if (!f) {
if (global_config.highlight_on_open) {
env->syntax = match_syntax(file);
}
env->loading = 0;
if (global_config.go_to_line) {
goto_line(1);
}
if (env->syntax && env->syntax->prefers_spaces) {
env->tabs = 0;
}
update_biminfo(env, 1);
run_onload(env);
return;
}
uint8_t buf[BLOCK_SIZE];
state = 0;
while (!feof(f) && !ferror(f)) {
size_t r = fread(buf, 1, BLOCK_SIZE, f);
add_buffer(buf, r);
}
if (ferror(f)) {
env->loading = 0;
return;
}
if (env->line_no && env->lines[env->line_no-1] && env->lines[env->line_no-1]->actual == 0) {
/* Remove blank line from end */
env->lines = remove_line(env->lines, env->line_no-1);
}
if (global_config.highlight_on_open) {
env->syntax = match_syntax(file);
if (!env->syntax) {
if (line_matches(env->lines[0], "<?xml")) set_syntax_by_name("xml");
else if (line_matches(env->lines[0], "<!doctype")) set_syntax_by_name("xml");
else if (line_matches(env->lines[0], "#!/usr/bin/env bash")) set_syntax_by_name("bash");
else if (line_matches(env->lines[0], "#!/bin/bash")) set_syntax_by_name("bash");
else if (line_matches(env->lines[0], "#!/bin/sh")) set_syntax_by_name("bash");
else if (line_matches(env->lines[0], "#!/usr/bin/env python")) set_syntax_by_name("py");
else if (line_matches(env->lines[0], "#!/usr/bin/env groovy")) set_syntax_by_name("groovy");
}
if (!env->syntax && global_config.syntax_fallback) {
set_syntax_by_name(global_config.syntax_fallback);
}
schedule_complete_recalc();
}
/* Try to automatically figure out tabs vs. spaces */
int tabs = 0, spaces = 0;
for (int i = 0; i < env->line_count; ++i) {
if (env->lines[i]->actual > 1) { /* Make sure line has at least some text on it */
if (env->lines[i]->text[0].codepoint == '\t') tabs++;
if (env->lines[i]->text[0].codepoint == ' ' &&
env->lines[i]->text[1].codepoint == ' ') /* Ignore spaces at the start of asterisky C comments */
spaces++;
}
}
if (spaces > tabs) {
env->tabs = 0;
} else if (spaces == tabs && env->syntax) {
env->tabs = env->syntax->prefers_spaces;
}
if (spaces > tabs) {
int one = 0, two = 0, three = 0, four = 0; /* If you use more than that, I don't like you. */
int lastCount = 0;
for (int i = 0; i < env->line_count; ++i) {
if (env->lines[i]->actual > 1 && !line_is_comment(env->lines[i])) {
/* Count spaces at beginning */
int c = 0, diff = 0;
while (c < env->lines[i]->actual && env->lines[i]->text[c].codepoint == ' ') c++;
if (c > lastCount) {
diff = c - lastCount;
} else if (c < lastCount) {
diff = lastCount - c;
}
if (diff == 1) one++;
if (diff == 2) two++;
if (diff == 3) three++;
if (diff == 4) four++;
lastCount = c;
}
}
if (four > three && four > two && four > one) {
env->tabstop = 4;
} else if (three > two && three > one) {
env->tabstop = 3;
} else if (two > one) {
env->tabstop = 2;
} else {
env->tabstop = 1;
}
}
env->loading = 0;
if (global_config.check_git) {
env->checkgitstatusonwrite = 1;
git_examine(file);
}
for (int i = 0; i < env->line_count; ++i) {
recalculate_tabs(env->lines[i]);
}
if (global_config.go_to_line) {
if (init_line != -1) {
goto_line(init_line);
} else {
env->line_no = 1;
env->col_no = 1;
fetch_from_biminfo(env);
place_cursor_actual();
redraw_all();
set_preferred_column();
}
}
update_biminfo(env, 1);
fclose(f);
run_onload(env);
}
/**
* Clean up the terminal and exit the editor.
*/
void quit(const char * message) {
mouse_disable();
set_buffered();
reset();
clear_screen();
show_cursor();
unset_bracketed_paste();
unset_alternate_screen();
krk_freeVM();
if (message) {
fprintf(stdout, "%s\n", message);
}
exit(0);
}
/**
* Try to quit, but don't continue if there are
* modified buffers open.
*/
void try_quit(void) {
for (int i = 0; i < buffers_len; i++ ) {
buffer_t * _env = buffers[i];
if (_env->modified) {
if (_env->file_name) {
render_error("Modifications made to file `%s` in tab %d. Aborting.", _env->file_name, i+1);
} else {
render_error("Unsaved new file in tab %d. Aborting.", i+1);
}
return;
}
}
/* Close all buffers */
while (buffers_len) {
buffer_close(buffers[0]);
}
quit(NULL);
}
/**
* Switch to the previous buffer
*/
BIM_ACTION(previous_tab, 0,
"Switch the previous tab"
,void) {
buffer_t * last = NULL;
for (int i = 0; i < buffers_len; i++) {
buffer_t * _env = buffers[i];
if (_env == env) {
if (last) {
/* Wrap around */
env = last;
if (left_buffer && (left_buffer != env && right_buffer != env)) unsplit();
redraw_all();
update_title();
return;
} else {
env = buffers[buffers_len-1];
if (left_buffer && (left_buffer != env && right_buffer != env)) unsplit();
redraw_all();
update_title();
return;
}
}
last = _env;
}
}
/**
* Switch to the next buffer
*/
BIM_ACTION(next_tab, 0,
"Switch to the next tab"
,void) {
for (int i = 0; i < buffers_len; i++) {
buffer_t * _env = buffers[i];
if (_env == env) {
if (i != buffers_len - 1) {
env = buffers[i+1];
if (left_buffer && (left_buffer != env && right_buffer != env)) unsplit();
redraw_all();
update_title();
return;
} else {
/* Wrap around */
env = buffers[0];
if (left_buffer && (left_buffer != env && right_buffer != env)) unsplit();
redraw_all();
update_title();
return;
}
}
}
}
/**
* Check for modified lines in a file by examining `git diff` output.
* This can be enabled globally in bimrc or per environment with the 'git' option.
*/
int git_examine(char * filename) {
if (env->modified) return 1;
int fds[2];
pipe(fds);
int child = fork();
if (child == 0) {
FILE * dev_null = fopen("/dev/null","w");
close(fds[0]);
dup2(fds[1], STDOUT_FILENO);
dup2(fileno(dev_null), STDERR_FILENO);
char * args[] = {"git","--no-pager","diff","-U0","--no-color","--",filename,NULL};
exit(execvp("git",args));
} else if (child < 0) {
return 1;
}
close(fds[1]);
FILE * f = fdopen(fds[0],"r");
int line_offset = 0;
while (!feof(f)) {
int c = fgetc(f);
if (c < 0) break;
if (c == '@' && line_offset == 0) {
/* Read line offset, count */
if (fgetc(f) == '@' && fgetc(f) == ' ' && fgetc(f) == '-') {
/* This algorithm is borrowed from Kakoune and only requires us to parse the @@ line */
int from_line = 0;
int from_count = 0;
int to_line = 0;
int to_count = 0;
fscanf(f,"%d",&from_line);
if (fgetc(f) == ',') {
fscanf(f,"%d",&from_count);
} else {
from_count = 1;
}
fscanf(f,"%d",&to_line);
if (fgetc(f) == ',') {
fscanf(f,"%d",&to_count);
} else {
to_count = 1;
}
if (to_line > env->line_count) continue;
if (from_count == 0 && to_count > 0) {
/* No -, all + means all of to_count is green */
for (int i = 0; i < to_count; ++i) {
env->lines[to_line+i-1]->rev_status = 1; /* Green */
}
} else if (from_count > 0 && to_count == 0) {
/*
* No +, all - means we have a deletion. We mark the next line such that it has a red bar at the top
* Note that to_line is one lower than the affected line, so we don't need to mess with indexes.
*/
if (to_line >= env->line_count) continue;
env->lines[to_line]->rev_status = 4; /* Red */
} else if (from_count > 0 && from_count == to_count) {
/* from = to, all modified */
for (int i = 0; i < to_count; ++i) {
env->lines[to_line+i-1]->rev_status = 3; /* Blue */
}
} else if (from_count > 0 && from_count < to_count) {
/* from < to, some modified, some added */
for (int i = 0; i < from_count; ++i) {
env->lines[to_line+i-1]->rev_status = 3; /* Blue */
}
for (int i = from_count; i < to_count; ++i) {
env->lines[to_line+i-1]->rev_status = 1; /* Green */
}
} else if (to_count > 0 && from_count > to_count) {
/* from > to, we deleted but also modified some lines */
env->lines[to_line-1]->rev_status = 5; /* Red + Blue */
for (int i = 1; i < to_count; ++i) {
env->lines[to_line+i-1]->rev_status = 3; /* Blue */
}
}
}
}
if (c == '\n') {
line_offset = 0;
continue;
}
line_offset++;
}
fclose(f);
waitpid(-1,NULL,WNOHANG);
return 0;
}
/**
* Write file contents to FILE
*/
void output_file(buffer_t * env, FILE * f) {
int i, j;
for (i = 0; i < env->line_count; ++i) {
line_t * line = env->lines[i];
line->rev_status = 0;
for (j = 0; j < line->actual; j++) {
char_t c = line->text[j];
if (c.codepoint == 0) {
char buf[1] = {0};
fwrite(buf, 1, 1, f);
} else {
char tmp[8] = {0};
int i = to_eight(c.codepoint, tmp);
fwrite(tmp, i, 1, f);
}
}
if (env->crnl) fputc('\r', f);
fputc('\n', f);
}
}
/**
* Write active buffer to file
*/
void write_file(char * file) {
if (!file) {
render_error("Need a file to write to.");
return;
}
char * _file = file;
if (file[0] == '~') {
char * home = getenv("HOME");
if (home) {
_file = malloc(strlen(file) + strlen(home) + 4); /* Paranoia */
sprintf(_file, "%s%s", home, file+1);
}
}
FILE * f = fopen(_file, "w+");
if (file != _file) free(_file);
if (!f) {
render_error("Failed to open file for writing.");
return;
}
/* Go through each line and convert it back to UTF-8 */
output_file(env, f);
fclose(f);
/* Mark it no longer modified */
env->modified = 0;
env->last_save_history = env->history;
/* If there was no file name set, set one */
if (!env->file_name) {
env->file_name = malloc(strlen(file) + 1);
memcpy(env->file_name, file, strlen(file) + 1);
}
if (env->checkgitstatusonwrite) {
git_examine(file);
}
update_title();
redraw_all();
}
/**
* Close the active buffer
*/
void close_buffer(void) {
buffer_t * previous_env = env;
buffer_t * new_env = buffer_close(env);
if (new_env == previous_env) {
/* ?? Failed to close buffer */
render_error("lolwat");
}
if (left_buffer && env == left_buffer) {
left_buffer = NULL;
right_buffer->left = 0;
right_buffer->width = global_config.term_width;
right_buffer = NULL;
} else if (left_buffer && env == right_buffer) {
right_buffer = NULL;
left_buffer->left = 0;
left_buffer->width = global_config.term_width;
left_buffer = NULL;
}
/* No more buffers, exit */
if (!new_env) {
quit(NULL);
}
/* Set the new active buffer */
env = new_env;
/* Redraw the screen */
redraw_all();
update_title();
}
/**
* Set the visual column the cursor should attempt to keep
* when moving up and down based on where the cursor currently is.
* This should happen whenever the user intentionally changes
* the cursor's horizontal positioning, such as with left/right
* arrow keys, word-move, search, mouse, etc.
*/
void set_preferred_column(void) {
int c = 0;
for (int i = 0; i < env->lines[env->line_no-1]->actual && i < env->col_no-1; ++i) {
c += env->lines[env->line_no-1]->text[i].display_width;
}
env->preferred_column = c;
}
BIM_ACTION(cursor_down, 0,
"Move the cursor one line down."
,void) {
/* If this isn't already the last line... */
if (env->line_no < env->line_count) {
/* Move the cursor down */
env->line_no += 1;
/* Try to place the cursor horizontally at the preferred column */
int _x = 0;
for (int i = 0; i < env->lines[env->line_no-1]->actual; ++i) {
char_t * c = &env->lines[env->line_no-1]->text[i];
_x += c->display_width;
env->col_no = i+1;
if (_x > env->preferred_column) {
break;
}
}
if (env->mode == MODE_INSERT && _x <= env->preferred_column) {
env->col_no = env->lines[env->line_no-1]->actual + 1;
}
/*
* If the horizontal cursor position exceeds the width the new line,
* then move the cursor left to the extent of the new line.
*
* If we're in insert mode, we can go one cell beyond the end of the line
*/
if (env->col_no > env->lines[env->line_no-1]->actual + (env->mode == MODE_INSERT)) {
env->col_no = env->lines[env->line_no-1]->actual + (env->mode == MODE_INSERT);
if (env->col_no == 0) env->col_no = 1;
}
if (env->loading) return;
/*
* If the screen was scrolled horizontally, unscroll it;
* if it will be scrolled on this line as well, that will
* be handled by place_cursor_actual
*/
int redraw = 0;
if (env->coffset != 0) {
env->coffset = 0;
redraw = 1;
}
/* If we've scrolled past the bottom of the screen, scroll the screen */
if (env->line_no > env->offset + global_config.term_height - global_config.bottom_size - global_config.tabs_visible - global_config.cursor_padding) {
env->offset += 1;
/* Tell terminal to scroll */
if (global_config.can_scroll && !left_buffer) {
if (!global_config.can_insert) {
shift_up(1);
redraw_tabbar();
} else {
delete_lines_at(global_config.tabs_visible ? 2 : 1, 1);
}
/* A new line appears on screen at the bottom, draw it */
int l = global_config.term_height - global_config.bottom_size - global_config.tabs_visible;
if (env->offset + l < env->line_count + 1) {
redraw_line(env->offset + l-1);
} else {
draw_excess_line(l - 1);
}
} else {
redraw_text();
}
redraw_statusbar();
redraw_commandline();
place_cursor_actual();
return;
} else if (redraw) {
/* Otherwise, if we need to redraw because of coffset change, do that */
redraw_text();
}
set_history_break();
/* Update the status bar */
redraw_statusbar();
/* Place the terminal cursor again */
place_cursor_actual();
}
}
BIM_ACTION(cursor_up, 0,
"Move the cursor up one line."
,void) {
/* If this isn't the first line already */
if (env->line_no > 1) {
/* Move the cursor down */
env->line_no -= 1;
/* Try to place the cursor horizontally at the preferred column */
int _x = 0;
for (int i = 0; i < env->lines[env->line_no-1]->actual; ++i) {
char_t * c = &env->lines[env->line_no-1]->text[i];
_x += c->display_width;
env->col_no = i+1;
if (_x > env->preferred_column) {
break;
}
}
if (env->mode == MODE_INSERT && _x <= env->preferred_column) {
env->col_no = env->lines[env->line_no-1]->actual + 1;
}
/*
* If the horizontal cursor position exceeds the width the new line,
* then move the cursor left to the extent of the new line.
*
* If we're in insert mode, we can go one cell beyond the end of the line
*/
if (env->col_no > env->lines[env->line_no-1]->actual + (env->mode == MODE_INSERT)) {
env->col_no = env->lines[env->line_no-1]->actual + (env->mode == MODE_INSERT);
if (env->col_no == 0) env->col_no = 1;
}
if (env->loading) return;
/*
* If the screen was scrolled horizontally, unscroll it;
* if it will be scrolled on this line as well, that will
* be handled by place_cursor_actual
*/
int redraw = 0;
if (env->coffset != 0) {
env->coffset = 0;
redraw = 1;
}
int e = (env->offset == 0) ? env->offset : env->offset + global_config.cursor_padding;
if (env->line_no <= e) {
env->offset -= 1;
/* Tell terminal to scroll */
if (global_config.can_scroll && !left_buffer) {
if (!global_config.can_insert) {
shift_down(1);
redraw_tabbar();
} else {
insert_lines_at(global_config.tabs_visible ? 2 : 1, 1);
}
/*
* The line at the top of the screen should always be real
* so we can just call redraw_line here
*/
redraw_line(env->offset);
} else {
redraw_tabbar();
redraw_text();
}
redraw_statusbar();
redraw_commandline();
place_cursor_actual();
return;
} else if (redraw) {
/* Otherwise, if we need to redraw because of coffset change, do that */
redraw_text();
}
set_history_break();
/* Update the status bar */
redraw_statusbar();
/* Place the terminal cursor again */
place_cursor_actual();
}
}
BIM_ACTION(cursor_left, 0,
"Move the cursor one character to the left."
,void) {
if (env->col_no > 1) {
env->col_no -= 1;
/* Update the status bar */
redraw_statusbar();
/* Place the terminal cursor again */
place_cursor_actual();
}
set_history_break();
set_preferred_column();
}
BIM_ACTION(cursor_right, 0,
"Move the cursor one character to the right."
,void) {
/* If this isn't already the rightmost column we can reach on this line in this mode... */
if (env->col_no < env->lines[env->line_no-1]->actual + !!(env->mode == MODE_INSERT)) {
env->col_no += 1;
/* Update the status bar */
redraw_statusbar();
/* Place the terminal cursor again */
place_cursor_actual();
}
set_history_break();
set_preferred_column();
}
BIM_ACTION(cursor_home, 0,
"Move the cursor to the beginning of the line."
,void) {
env->col_no = 1;
set_history_break();
set_preferred_column();
/* Update the status bar */
redraw_statusbar();
/* Place the terminal cursor again */
place_cursor_actual();
}
BIM_ACTION(cursor_end, 0,
"Move the cursor to the end of the line, or past the end in insert mode."
,void) {
env->col_no = env->lines[env->line_no-1]->actual+!!(env->mode == MODE_INSERT);
set_history_break();
set_preferred_column();
/* Update the status bar */
redraw_statusbar();
/* Place the terminal cursor again */
place_cursor_actual();
}
BIM_ACTION(leave_insert, 0,
"Leave insert modes and return to normal mode."
,void) {
if (env->col_no > env->lines[env->line_no-1]->actual) {
env->col_no = env->lines[env->line_no-1]->actual;
if (env->col_no == 0) env->col_no = 1;
set_preferred_column();
}
set_history_break();
env->mode = MODE_NORMAL;
redraw_commandline();
}
struct MatchQualifier {
int (*matchFunc)(struct MatchQualifier*,uint32_t,int);
union {
uint32_t matchChar;
struct {
uint32_t * start;
uint32_t * end;
} matchSquares;
};
};
/**
* Helper for handling smart case sensitivity.
*/
int match_char(struct MatchQualifier * self, uint32_t b, int mode) {
if (mode == 0) {
return self->matchChar == b;
} else if (mode == 1) {
return tolower(self->matchChar) == tolower(b);
}
return 0;
}
int match_squares(struct MatchQualifier * self, uint32_t c, int mode) {
uint32_t * start = self->matchSquares.start;
uint32_t * end = self->matchSquares.end;
uint32_t * t = start;
int good = 1;
if (*t == '^') { t++; good = 0; }
while (t != end) {
uint32_t test = *t++;
if (test == '\\' && *t && strchr("\\]",*t)) {
test = *t++;
} else if (test == '\\' && *t == 't') {
test = '\t'; t++;
}
if (*t == '-') {
t++;
if (t == end) return 0;
uint32_t right = *t++;
if (right == '\\' && *t && strchr("\\]",*t)) {
right = *t++;
} else if (right == '\\' && *t == 't') {
right = '\t'; t++;
}
if (mode ? (tolower(c) >= tolower(test) && tolower(c) <= tolower(right)) : (c >= test && c <= right)) return good;
} else {
if (mode ? (tolower(c) == tolower(test)) : (c == test)) return good;
}
}
return !good;
}
int match_dot(struct MatchQualifier * self, uint32_t c, int mode) {
return 1;
}
struct BackRef {
int start;
int len;
uint32_t * copy;
};
#define MAX_REFS 10
int regex_matches(line_t * line, int j, uint32_t * needle, int ignorecase, int *len, uint32_t **needleout, int refindex, struct BackRef * refs) {
int k = j;
uint32_t * match = needle;
if (*match == '^') {
if (j != 0) return 0;
match++;
}
while (k < line->actual + 1) {
if (needleout && *match == ')') {
*needleout = match + 1;
if (len) *len = k - j;
return 1;
}
if (*match == '\0') {
if (needleout) return 0;
if (len) *len = k - j;
return 1;
}
if (*match == '$') {
if (k != line->actual) return 0;
match++;
continue;
}
if (k == line->actual) break;
struct MatchQualifier matcher = {match_char, .matchChar=*match};
if (*match == '.') {
matcher.matchFunc = match_dot;
match++;
} else if (*match == '\\' && strchr("$^/\\.[?]*+()",match[1]) != NULL) {
matcher.matchChar = match[1];
match += 2;
} else if (*match == '\\' && match[1] == 't') {
matcher.matchChar = '\t';
match += 2;
} else if (*match == '[') {
uint32_t * s = match+1;
uint32_t * e = s;
while (*e && *e != ']') {
if (*e == '\\' && e[1] == ']') e++;
e++;
}
if (!*e) break; /* fail match on unterminated [] sequence */
match = e + 1;
matcher.matchFunc = match_squares;
matcher.matchSquares.start = s;
matcher.matchSquares.end = e;
} else if (*match == '(') {
match++;
int _len;
uint32_t * newmatch;
if (!regex_matches(line, k, match, ignorecase, &_len, &newmatch, 0, NULL)) break;
match = newmatch;
if (refindex && refindex < MAX_REFS) {
refs[refindex].start = k;
refs[refindex].len = _len;
refindex++;
}
k += _len;
continue;
} else {
match++;
}
if (*match == '?') {
/* Optional */
match++;
if (matcher.matchFunc(&matcher, line->text[k].codepoint, ignorecase)) {
int _len;
if (regex_matches(line,k+1,match,ignorecase,&_len, needleout, refindex, refs)) {
if (len) *len = _len + k + 1 - j;
return 1;
}
}
continue;
} else if (*match == '+' || *match == '*') {
/* Must match at least one */
if (*match == '+') {
if (!matcher.matchFunc(&matcher, line->text[k].codepoint, ignorecase)) break;
k++;
}
/* Match any */
match++;
int greedy = 1;
if (*match == '?') {
/* non-greedy */
match++;
greedy = 0;
}
int _j = k;
while (_j < line->actual + 1) {
int _len;
if (!greedy && regex_matches(line, _j, match, ignorecase, &_len, needleout, refindex, refs)) {
if (len) *len = _len + _j - j;
return 1;
}
if (_j < line->actual && !matcher.matchFunc(&matcher, line->text[_j].codepoint, ignorecase)) break;
_j++;
}
if (!greedy) return 0;
while (_j >= k) {
int _len;
if (regex_matches(line, _j, match, ignorecase, &_len, needleout, refindex, refs)) {
if (len) *len = _len + _j - j;
return 1;
}
_j--;
}
return 0;
} else {
if (!matcher.matchFunc(&matcher, line->text[k].codepoint, ignorecase)) break;
k++;
}
}
return 0;
}
int subsearch_matches(line_t * line, int j, uint32_t * needle, int ignorecase, int *len) {
return regex_matches(line, j, needle, ignorecase, len, NULL, 0, NULL);
}
/**
* Replace text on a given line with other text.
*/
void perform_replacement(int line_no, uint32_t * needle, uint32_t * replacement, int col, int ignorecase, int *out_col, int *line_out) {
line_t * line = env->lines[line_no-1];
int j = col;
while (j < line->actual + 1) {
int match_len;
struct BackRef refs[MAX_REFS] = {0};
if (regex_matches(line,j,needle,ignorecase,&match_len,NULL,1,refs)) {
refs[0].start = j;
refs[0].len = match_len;
for (int i = 0; i < MAX_REFS; ++i) {
refs[i].copy = malloc(sizeof(uint32_t) * refs[i].len);
for (int j = 0; j < refs[i].len; ++j) {
refs[i].copy[j] = line->text[j+refs[i].start].codepoint;
}
}
/* Perform replacement */
for (int i = 0; i < match_len; ++i) {
line_delete(line, j+1, line_no-1);
}
int t = 0;
for (uint32_t * r = replacement; *r; ++r) {
uint32_t rep = *r;
char_t _c;
_c.flags = 0;
line_t * nline = line;
if (*r == '\\' && r[1] == 't') {
rep = '\t';
++r;
} else if (*r == '\\' && (r[1] == '\\')) {
rep = r[1];
++r;
} else if (*r == '\\' && (r[1] >= '0' && r[1] <= '9')) {
int i = r[1] - '0';
++r;
nline = line;
for (int k = 0; k < refs[i].len; ++k) {
_c.codepoint = refs[i].copy[k];
_c.display_width = codepoint_width(refs[i].copy[k]);
nline = line_insert(nline, _c, j + t + k, line_no -1);
}
t += refs[i].len;
rep = 0;
} else if (*r == '\\' && (r[1] == 'n')) {
++r;
env->lines = split_line(env->lines, line_no - 1, j + t);
line_no++;
line = env->lines[line_no-1];
j = 0;
t = 0;
continue;
}
if (rep) {
_c.codepoint = rep;
_c.display_width = codepoint_width(rep);
nline = line_insert(nline, _c, j + t, line_no -1);
t++;
}
if (line != nline) {
env->lines[line_no-1] = nline;
line = nline;
}
}
*out_col = j + t;
*line_out = line_no;
set_modified();
for (int i = 0; i < MAX_REFS; ++i) {
free(refs[i].copy);
}
return;
}
j++;
}
*out_col = -1;
}
#define COMMAND_HISTORY_MAX 255
unsigned char * command_history[COMMAND_HISTORY_MAX] = {NULL};
unsigned char * search_history[COMMAND_HISTORY_MAX] = {NULL};
/**
* Add a command to the history. If that command was
* already in history, it is moved to the front of the list;
* otherwise, the whole list is shifted backwards and
* overflow is freed up.
*/
void insert_command_history(unsigned char ** which_history, char * cmd) {
/* See if this is already in the history. */
size_t amount_to_shift = COMMAND_HISTORY_MAX - 1;
for (int i = 0; i < COMMAND_HISTORY_MAX && which_history[i]; ++i) {
if (!strcmp((char*)which_history[i], cmd)) {
free(which_history[i]);
amount_to_shift = i;
break;
}
}
/* Remove last entry that will roll off the stack */
if (amount_to_shift == COMMAND_HISTORY_MAX - 1) {
if (which_history[COMMAND_HISTORY_MAX-1]) free(which_history[COMMAND_HISTORY_MAX-1]);
}
/* Roll the history */
memmove(&which_history[1], &which_history[0], sizeof(char *) * (amount_to_shift));
which_history[0] = (unsigned char*)strdup(cmd);
}
static uint32_t term_colors[] = {
0x000000, 0xcc0000, 0x3e9a06, 0xc4a000, 0x3465a4, 0x75507b, 0x06989a, 0xeeeeec, 0x555753, 0xef2929, 0x8ae234, 0xfce94f, 0x729fcf, 0xad7fa8, 0x34e2e2,
0xFFFFFF, 0x000000, 0x00005f, 0x000087, 0x0000af, 0x0000d7, 0x0000ff, 0x005f00, 0x005f5f, 0x005f87, 0x005faf, 0x005fd7, 0x005fff, 0x008700, 0x00875f,
0x008787, 0x0087af, 0x0087d7, 0x0087ff, 0x00af00, 0x00af5f, 0x00af87, 0x00afaf, 0x00afd7, 0x00afff, 0x00d700, 0x00d75f, 0x00d787, 0x00d7af, 0x00d7d7,
0x00d7ff, 0x00ff00, 0x00ff5f, 0x00ff87, 0x00ffaf, 0x00ffd7, 0x00ffff, 0x5f0000, 0x5f005f, 0x5f0087, 0x5f00af, 0x5f00d7, 0x5f00ff, 0x5f5f00, 0x5f5f5f,
0x5f5f87, 0x5f5faf, 0x5f5fd7, 0x5f5fff, 0x5f8700, 0x5f875f, 0x5f8787, 0x5f87af, 0x5f87d7, 0x5f87ff, 0x5faf00, 0x5faf5f, 0x5faf87, 0x5fafaf, 0x5fafd7,
0x5fafff, 0x5fd700, 0x5fd75f, 0x5fd787, 0x5fd7af, 0x5fd7d7, 0x5fd7ff, 0x5fff00, 0x5fff5f, 0x5fff87, 0x5fffaf, 0x5fffd7, 0x5fffff, 0x870000, 0x87005f,
0x870087, 0x8700af, 0x8700d7, 0x8700ff, 0x875f00, 0x875f5f, 0x875f87, 0x875faf, 0x875fd7, 0x875fff, 0x878700, 0x87875f, 0x878787, 0x8787af, 0x8787d7,
0x8787ff, 0x87af00, 0x87af5f, 0x87af87, 0x87afaf, 0x87afd7, 0x87afff, 0x87d700, 0x87d75f, 0x87d787, 0x87d7af, 0x87d7d7, 0x87d7ff, 0x87ff00, 0x87ff5f,
0x87ff87, 0x87ffaf, 0x87ffd7, 0x87ffff, 0xaf0000, 0xaf005f, 0xaf0087, 0xaf00af, 0xaf00d7, 0xaf00ff, 0xaf5f00, 0xaf5f5f, 0xaf5f87, 0xaf5faf, 0xaf5fd7,
0xaf5fff, 0xaf8700, 0xaf875f, 0xaf8787, 0xaf87af, 0xaf87d7, 0xaf87ff, 0xafaf00, 0xafaf5f, 0xafaf87, 0xafafaf, 0xafafd7, 0xafafff, 0xafd700, 0xafd75f,
0xafd787, 0xafd7af, 0xafd7d7, 0xafd7ff, 0xafff00, 0xafff5f, 0xafff87, 0xafffaf, 0xafffd7, 0xafffff, 0xd70000, 0xd7005f, 0xd70087, 0xd700af, 0xd700d7,
0xd700ff, 0xd75f00, 0xd75f5f, 0xd75f87, 0xd75faf, 0xd75fd7, 0xd75fff, 0xd78700, 0xd7875f, 0xd78787, 0xd787af, 0xd787d7, 0xd787ff, 0xd7af00, 0xd7af5f,
0xd7af87, 0xd7afaf, 0xd7afd7, 0xd7afff, 0xd7d700, 0xd7d75f, 0xd7d787, 0xd7d7af, 0xd7d7d7, 0xd7d7ff, 0xd7ff00, 0xd7ff5f, 0xd7ff87, 0xd7ffaf, 0xd7ffd7,
0xd7ffff, 0xff0000, 0xff005f, 0xff0087, 0xff00af, 0xff00d7, 0xff00ff, 0xff5f00, 0xff5f5f, 0xff5f87, 0xff5faf, 0xff5fd7, 0xff5fff, 0xff8700, 0xff875f,
0xff8787, 0xff87af, 0xff87d7, 0xff87ff, 0xffaf00, 0xffaf5f, 0xffaf87, 0xffafaf, 0xffafd7, 0xffafff, 0xffd700, 0xffd75f, 0xffd787, 0xffd7af, 0xffd7d7,
0xffd7ff, 0xffff00, 0xffff5f, 0xffff87, 0xffffaf, 0xffffd7, 0xffffff, 0x080808, 0x121212, 0x1c1c1c, 0x262626, 0x303030, 0x3a3a3a, 0x444444, 0x4e4e4e,
0x585858, 0x626262, 0x6c6c6c, 0x767676, 0x808080, 0x8a8a8a, 0x949494, 0x9e9e9e, 0xa8a8a8, 0xb2b2b2, 0xbcbcbc, 0xc6c6c6, 0xd0d0d0, 0xdadada, 0xe4e4e4,
0xeeeeee,
};
/**
* Convert a color setting from terminal format
* to a hexadecimal color code and add it to the current
* buffer. This is used for HTML conversion, but could
* possibly be used for other purposes.
*/
static void html_convert_color(const char * color_string) {
char tmp[100];
if (!strncmp(color_string,"2;",2)) {
/* 24-bit color */
int red, green, blue;
sscanf(color_string+2,"%d;%d;%d",&red,&green,&blue);
sprintf(tmp, "#%02x%02x%02x;", red,green,blue);
} else if (!strncmp(color_string,"5;",2)) {
/* 256 colors; needs lookup table */
int index;
sscanf(color_string+2,"%d",&index);
sprintf(tmp,"#%06x;", (unsigned int)term_colors[(index >= 0 && index <= 255) ? index : 0]);
} else {
/* 16 colors; needs lookup table */
int index;
uint32_t color;
sscanf(color_string+1,"%d",&index);
if (index >= 10) {
index -= 10;
color = term_colors[index+8];
} else if (index == 9) {
color = term_colors[0];
} else {
color = term_colors[index];
}
sprintf(tmp,"#%06x;", (unsigned int)color);
}
add_string(tmp);
char * italic = strstr(color_string,";3");
if (italic && italic[2] == '\0') {
add_string(" font-style: oblique;");
}
char * bold = strstr(color_string,";1");
if (bold && bold[2] == '\0') {
add_string(" font-weight: bold;");
}
char * underline = strstr(color_string,";4");
if (underline && underline[2] == '\0') {
add_string(" font-decoration: underline;");
}
}
int convert_to_html(void) {
buffer_t * old = env;
env = buffer_new();
setup_buffer(env);
env->loading = 1;
add_string("<!doctype html>\n");
add_string("<html>\n");
add_string(" <head>\n");
add_string(" <meta charset=\"UTF-8\">\n");
if (old->file_name) {
add_string(" <title>");
add_string(file_basename(old->file_name));
add_string("</title>\n");
}
add_string(" <style>\n");
add_string(" body {\n");
add_string(" margin: 0;\n");
add_string(" -webkit-text-size-adjust: none;\n");
add_string(" counter-reset: line-no;\n");
add_string(" background-color: ");
/* Convert color */
html_convert_color(COLOR_BG);
add_string("\n");
add_string(" }\n");
add_string(" .ul { text-decoration: underline; }\n");
for (int i = 0; i < 15; ++i) {
/* For each of the relevant flags... */
char tmp[20];
sprintf(tmp," .s%d { color: ", i);
add_string(tmp);
/* These are special */
if (i == FLAG_NOTICE) {
html_convert_color(COLOR_SEARCH_FG);
add_string(" background-color: ");
html_convert_color(COLOR_SEARCH_BG);
} else if (i == FLAG_ERROR) {
html_convert_color(COLOR_ERROR_FG);
add_string(" background-color: ");
html_convert_color(COLOR_ERROR_BG);
} else {
html_convert_color(flag_to_color(i));
}
add_string("}\n");
}
add_string(" pre {\n");
add_string(" margin: 0;\n");
add_string(" white-space: pre-wrap;\n");
add_string(" font-family: \"DejaVu Sans Mono\", Courier, monospace;\n");
add_string(" font-size: 10pt;\n");
add_string(" }\n");
add_string(" pre>span {\n");
add_string(" display: inline-block;\n");
add_string(" width: 100%;\n");
add_string(" }\n");
add_string(" pre>span>a::before {\n");
add_string(" counter-increment: line-no;\n");
add_string(" content: counter(line-no);\n");
add_string(" padding-right: 1em;\n");
add_string(" width: 3em;\n");
add_string(" display: inline-block;\n");
add_string(" text-align: right;\n");
add_string(" background-color: ");
html_convert_color(COLOR_NUMBER_BG);
add_string("\n");
add_string(" color: ");
html_convert_color(COLOR_NUMBER_FG);
add_string("\n");
add_string(" }\n");
add_string(" pre>span:target {\n");
add_string(" background-color: ");
html_convert_color(COLOR_ALT_BG);
add_string("\n");
add_string(" }\n");
add_string(" pre>span:target>a::before {\n");
add_string(" background-color: ");
html_convert_color(COLOR_NUMBER_FG);
add_string("\n");
add_string(" color: ");
html_convert_color(COLOR_NUMBER_BG);
add_string("\n");
add_string(" }\n");
for (int i = 1; i <= env->tabstop; ++i) {
char tmp[20];
sprintf(tmp, ".tab%d", i);
add_string(" ");
add_string(tmp);
add_string(">span {\n");
add_string(" display: inline-block;\n");
add_string(" overflow: hidden;\n");
add_string(" width: 0;\n");
add_string(" height: 0;\n");
add_string(" }\n");
add_string(" ");
add_string(tmp);
add_string("::after {\n");
add_string(" content: '»");
for (int j = 1; j < i; ++j) {
add_string("·");
}
add_string("';\n");
add_string(" background-color: ");
html_convert_color(COLOR_ALT_BG);
add_string("\n");
add_string(" color: ");
html_convert_color(COLOR_ALT_FG);
add_string("\n");
add_string(" }\n");
}
add_string(" .space {\n");
add_string(" border-left: 1px solid ");
html_convert_color(COLOR_ALT_FG);
add_string("\n");
add_string(" margin-left: -1px;\n");
add_string(" }\n");
add_string(" </style>\n");
add_string(" </head>\n");
add_string(" <body><pre>\n");
for (int i = 0; i < old->line_count; ++i) {
char tmp[100];
sprintf(tmp, "<span id=\"L%d\"><a href=\"#L%d\"></a>", i+1, i+1);
add_string(tmp);
int last_flag = -1;
int opened = 0;
int all_spaces = 1;
for (int j = 0; j < old->lines[i]->actual; ++j) {
char_t c = old->lines[i]->text[j];
if (c.codepoint != ' ') all_spaces = 0;
if (last_flag == -1 || last_flag != (c.flags & 0x1F)) {
if (opened) add_string("</span>");
opened = 1;
char tmp[100];
sprintf(tmp, "<span class=\"s%d%s\">",
c.flags & FLAG_MASK_COLORS,
(c.flags & FLAG_UNDERLINE) ? " ul" : "");
add_string(tmp);
last_flag = (c.flags & 0x1F);
}
if (c.codepoint == '<') {
add_string("&lt;");
} else if (c.codepoint == '>') {
add_string("&gt;");
} else if (c.codepoint == '&') {
add_string("&amp;");
} else if (c.codepoint == '\t') {
char tmp[100];
sprintf(tmp, "<span class=\"tab%d\"><span> </span></span>",c.display_width);
add_string(tmp);
} else if (j > 0 && c.codepoint == ' ' && all_spaces && !(j % old->tabstop)) {
add_string("<span class=\"space\"> </span>");
} else {
char tmp[7] = {0}; /* Max six bytes, use 7 to ensure last is always nil */
to_eight(c.codepoint, tmp);
add_string(tmp);
}
}
if (opened) {
add_string("</span>");
} else {
add_string("<wbr>");
}
add_string("</span>\n");
}
add_string("</pre></body>\n");
add_string("</html>\n");
env->loading = 0;
env->modified = 1;
if (old->file_name) {
char * base = file_basename(old->file_name);
char * tmp = malloc(strlen(base) + 5);
*tmp = '\0';
strcat(tmp, base);
strcat(tmp, ".htm");
env->file_name = tmp;
}
for (int i = 0; i < env->line_count; ++i) {
recalculate_tabs(env->lines[i]);
}
env->syntax = match_syntax(".htm");
schedule_complete_recalc();
return 0;
}
/**
* Based on vim's :TOhtml
* Convert syntax-highlighted buffer contents to HTML.
*/
BIM_COMMAND(tohtml,"tohtml","Convert the document to an HTML representation with syntax highlighting.") {
convert_to_html();
redraw_all();
return 0;
}
BIM_ALIAS("TOhtml",tohtml,tohtml)
int _prefix_command_run_script(char * cmd) {
if (env->mode == MODE_LINE_SELECTION) {
int range_top, range_bot;
range_top = env->start_line < env->line_no ? env->start_line : env->line_no;
range_bot = env->start_line < env->line_no ? env->line_no : env->start_line;
int in[2];
pipe(in);
int out[2];
pipe(out);
int child = fork();
/* Open child process and set up pipes */
if (child == 0) {
FILE * dev_null = fopen("/dev/null","w"); /* for stderr */
close(out[0]);
close(in[1]);
dup2(out[1], STDOUT_FILENO);
dup2(in[0], STDIN_FILENO);
dup2(fileno(dev_null), STDERR_FILENO);
system(&cmd[1]); /* Yes we can just do this */
exit(1);
} else if (child < 0) {
render_error("Failed to fork");
return 1;
}
close(out[1]);
close(in[0]);
/* Write lines to child process */
FILE * f = fdopen(in[1],"w");
for (int i = range_top; i <= range_bot; ++i) {
line_t * line = env->lines[i-1];
for (int j = 0; j < line->actual; j++) {
char_t c = line->text[j];
if (c.codepoint == 0) {
char buf[1] = {0};
fwrite(buf, 1, 1, f);
} else {
char tmp[8] = {0};
int i = to_eight(c.codepoint, tmp);
fwrite(tmp, i, 1, f);
}
}
fputc('\n', f);
}
fclose(f);
close(in[1]);
/* Read results from child process into a new buffer */
FILE * result = fdopen(out[0],"r");
buffer_t * old = env;
env = buffer_new();
setup_buffer(env);
env->loading = 1;
uint8_t buf[BLOCK_SIZE];
state = 0;
while (!feof(result) && !ferror(result)) {
size_t r = fread(buf, 1, BLOCK_SIZE, result);
add_buffer(buf, r);
}
if (env->line_no && env->lines[env->line_no-1] && env->lines[env->line_no-1]->actual == 0) {
env->lines = remove_line(env->lines, env->line_no-1);
}
fclose(result);
waitpid(-1,NULL,WNOHANG);
env->loading = 0;
/* Return to the original buffer and replace the selected lines with the output */
buffer_t * new = env;
env = old;
for (int i = range_top; i <= range_bot; ++i) {
/* Remove the existing lines */
env->lines = remove_line(env->lines, range_top-1);
}
for (int i = 0; i < new->line_count; ++i) {
/* Add the new lines */
env->lines = add_line(env->lines, range_top + i - 1);
replace_line(env->lines, range_top + i - 1, new->lines[i]);
recalculate_tabs(env->lines[range_top+i-1]);
}
env->modified = 1;
/* Close the temporary buffer */
buffer_close(new);
} else {
/* Reset and draw some line feeds */
reset();
printf("\n\n");
/* Set buffered for shell application */
set_buffered();
/* Call the shell and wait for completion */
system(&cmd[1]);
/* Return to the editor, wait for user to press enter. */
set_unbuffered();
printf("\n\nPress ENTER to continue.");
int c;
while ((c = bim_getch(), c != ENTER_KEY && c != LINE_FEED));
/* Redraw the screen */
redraw_all();
}
/* Done processing command */
return 0;
}
int replace_text(int range_top, int range_bot, char divider, char * needle) {
char * c = needle;
char * replacement = NULL;
char * options = "";
while (*c) {
if (*c == divider) {
*c = '\0';
replacement = c + 1;
break;
}
c++;
}
if (!replacement) {
render_error("nothing to replace with");
return 1;
}
c = replacement;
while (*c) {
if (*c == divider) {
*c = '\0';
options = c + 1;
break;
}
c++;
}
int global = 0;
int case_insensitive = 0;
/* Parse options */
while (*options) {
switch (*options) {
case 'g':
global = 1;
break;
case 'i':
case_insensitive = 1;
break;
}
options++;
}
uint32_t * needle_c = malloc(sizeof(uint32_t) * (strlen(needle) + 1));
uint32_t * replacement_c = malloc(sizeof(uint32_t) * (strlen(replacement) + 1));
{
int i = 0;
uint32_t c, state = 0;
for (char * cin = needle; *cin; cin++) {
if (!decode(&state, &c, *cin)) {
needle_c[i] = c;
i++;
} else if (state == UTF8_REJECT) {
state = 0;
}
}
needle_c[i] = 0;
i = 0;
c = 0;
state = 0;
for (char * cin = replacement; *cin; cin++) {
if (!decode(&state, &c, *cin)) {
replacement_c[i] = c;
i++;
} else if (state == UTF8_REJECT) {
state = 0;
}
}
replacement_c[i] = 0;
}
int replacements = 0;
for (int line = range_top; line <= range_bot; ++line) {
int col = 0;
while (col != -1) {
int _line = line;
perform_replacement(line, needle_c, replacement_c, col, case_insensitive, &col, &_line);
if (col != -1) replacements++;
if (_line > line) {
range_bot += _line - line;
line = _line;
}
if (!global) break;
}
}
if (env->mode == MODE_LINE_SELECTION) {
env->start_line = env->start_line < env->line_no ? range_top : range_bot;
env->line_no = env->start_line < env->line_no ? range_bot : range_top;
}
free(needle_c);
free(replacement_c);
if (replacements) {
render_status_message("replaced %d instance%s of %s", replacements, replacements == 1 ? "" : "s", needle);
set_history_break();
redraw_text();
} else {
render_error("Pattern not found: %s", needle);
}
return 0;
}
BIM_PREFIX_COMMAND(repsome,"s","Perform a replacement over selected lines") {
int range_top, range_bot;
if (env->mode == MODE_LINE_SELECTION) {
range_top = env->start_line < env->line_no ? env->start_line : env->line_no;
range_bot = env->start_line < env->line_no ? env->line_no : env->start_line;
} else {
range_top = env->line_no;
range_bot = env->line_no;
}
return replace_text(range_top, range_bot, cmd[1], &cmd[2]);
}
BIM_PREFIX_COMMAND(repall,"%s","Perform a replacement over the entire file.") {
return replace_text(1, env->line_count, cmd[2], &cmd[3]);
}
BIM_COMMAND(e,"e","Open a file") {
if (argc > 1) {
/* This actually opens a new tab */
open_file(argv[1]);
update_title();
} else {
if (env->modified) {
render_error("File is modified, can not reload.");
return 1;
}
buffer_t * old_env = env;
open_file(env->file_name);
buffer_t * new_env = env;
env = old_env;
#define SWAP(T,a,b) do { T x = a; a = b; b = x; } while (0)
SWAP(line_t **, env->lines, new_env->lines);
SWAP(int, env->line_count, new_env->line_count);
SWAP(int, env->line_avail, new_env->line_avail);
SWAP(history_t *, env->history, new_env->history);
buffer_close(new_env); /* Should probably also free, this needs editing. */
schedule_complete_recalc();
redraw_all();
}
return 0;
}
BIM_COMMAND(tabnew,"tabnew","Open a new tab") {
if (argc > 1) {
open_file(argv[1]);
update_title();
} else {
env = buffer_new();
setup_buffer(env);
redraw_all();
update_title();
}
return 0;
}
BIM_COMMAND(w,"w","Write a file") {
/* w: write file */
if (argc > 1) {
write_file(argv[1]);
} else {
write_file(env->file_name);
}
return 0;
}
BIM_COMMAND(wq,"wq","Write and close buffer") {
write_file(env->file_name);
close_buffer();
return 0;
}
BIM_COMMAND(history,"history","Display command history") {
render_commandline_message(""); /* To clear command line */
for (int i = COMMAND_HISTORY_MAX; i > 1; --i) {
if (command_history[i-1]) render_commandline_message("%d:%s\n", i-1, command_history[i-1]);
}
render_commandline_message("\n");
redraw_tabbar();
redraw_commandline();
pause_for_key();
return 0;
}
BIM_COMMAND(q,"q","Close buffer") {
if (left_buffer && left_buffer == right_buffer) {
unsplit();
return 0;
}
if (env->modified) {
render_error("No write since last change. Use :q! to force exit.");
} else {
close_buffer();
}
update_title();
return 0;
}
BIM_COMMAND(qbang,"q!","Force close buffer") {
close_buffer();
update_title();
return 0;
}
BIM_COMMAND(qa,"qa","Try to close all buffers") {
try_quit();
return 0;
}
BIM_ALIAS("qall",qall,qa)
BIM_COMMAND(qabang,"qa!","Force exit") {
/* Forcefully exit editor */
while (buffers_len) {
buffer_close(buffers[0]);
}
quit(NULL);
return 1; /* doesn't return */
}
BIM_COMMAND(tabp,"tabp","Previous tab") {
previous_tab();
update_title();
return 0;
}
BIM_COMMAND(tabn,"tabn","Next tab") {
next_tab();
update_title();
return 0;
}
BIM_COMMAND(tabm,"tabm","Move the current tab to a new index") {
/* Figure out the current index */
int i = 0;
for (; i < buffers_len; i++) {
if (buffers[i] == env) break;
}
if (i == buffers_len) {
render_status_message("(invalid state?)");
return 1;
}
if (argc < 2) {
render_status_message("tab = %d", i);
return 1;
}
int newIndex = atoi(argv[1]);
if (newIndex == i) {
return 0;
}
/* Okay, this is stupid, but, remove the buffer */
memmove(&buffers[i], &buffers[i+1], sizeof(*buffers) * (buffers_len - i -1));
/* Then make space at the destination */
memmove(&buffers[newIndex+1], &buffers[newIndex], sizeof(*buffers) * (buffers_len - newIndex -1));
buffers[newIndex] = env;
redraw_tabbar();
update_title();
return 0;
}
BIM_COMMAND(tab,"tab", "Open a specific tab") {
if (argc < 2) return bim_command_tabm("tabm", argc, argv);
int i = atoi(argv[1]);
if (i < 0 || i > buffers_len) {
render_error("Invalid tab index");
return 1;
}
env = buffers[i];
if (left_buffer && (left_buffer != env && right_buffer != env)) unsplit();
redraw_all();
update_title();
return 0;
}
BIM_COMMAND(tabindicator,"tabindicator","Set the tab indicator") {
if (argc < 2) {
render_status_message("tabindicator=%s", global_config.tab_indicator);
return 0;
}
if (!global_config.can_unicode && strlen(argv[1]) != 1) return 0;
if (display_width_of_string(argv[1]) != 1) {
render_error("Can't set '%s' as indicator, must be one cell wide.", argv[1]);
return 1;
}
if (global_config.tab_indicator) free(global_config.tab_indicator);
global_config.tab_indicator = strdup(argv[1]);
return 0;
}
BIM_COMMAND(spaceindicator,"spaceindicator","Set the space indicator") {
if (argc < 2) {
render_status_message("spaceindicator=%s", global_config.space_indicator);
return 0;
}
if (!global_config.can_unicode && strlen(argv[1]) != 1) return 0;
if (display_width_of_string(argv[1]) != 1) {
render_error("Can't set '%s' as indicator, must be one cell wide.", argv[1]);
return 1;
}
if (global_config.space_indicator) free(global_config.space_indicator);
global_config.space_indicator = strdup(argv[1]);
return 0;
}
BIM_COMMAND(global_git,"global.git","Show or change the default status of git integration") {
if (argc < 2) {
render_status_message("global.git=%d", global_config.check_git);
} else {
global_config.check_git = !!atoi(argv[1]);
}
return 0;
}
BIM_COMMAND(git,"git","Show or change status of git integration") {
if (!env) {
render_error("requires environment (did you mean global.git?)");
return 1;
}
if (argc < 2) {
render_status_message("git=%d", env->checkgitstatusonwrite);
} else {
env->checkgitstatusonwrite = !!atoi(argv[1]);
if (env->checkgitstatusonwrite && !env->modified && env->file_name) {
git_examine(env->file_name);
redraw_text();
}
}
return 0;
}
BIM_COMMAND(colorgutter,"colorgutter","Show or change status of gutter colorization for unsaved modifications") {
if (argc < 2) {
render_status_message("colorgutter=%d", global_config.color_gutter);
} else {
global_config.color_gutter = !!atoi(argv[1]);
redraw_text();
}
return 0;
}
BIM_COMMAND(indent,"indent","Enable smart indentation") {
env->indent = 1;
redraw_statusbar();
return 0;
}
BIM_COMMAND(noindent,"noindent","Disable smart indentation") {
env->indent = 0;
redraw_statusbar();
return 0;
}
/* TODO: global.maxcolumn */
BIM_COMMAND(maxcolumn,"maxcolumn","Highlight past the given column to indicate maximum desired line length") {
if (argc < 2) {
render_status_message("maxcolumn=%d",env->maxcolumn);
return 0;
}
env->maxcolumn = atoi(argv[1]);
redraw_text();
return 0;
}
BIM_COMMAND(cursorcolumn,"cursorcolumn","Show the visual column offset of the cursor.") {
render_status_message("cursorcolumn=%d", env->preferred_column);
return 0;
}
BIM_COMMAND(noh,"noh","Clear search term") {
if (global_config.search) {
free(global_config.search);
global_config.search = NULL;
for (int i = 0; i < env->line_count; ++i) {
for (int j = 0; j < env->lines[i]->actual; ++j) {
env->lines[i]->text[j].flags &= ~(FLAG_SEARCH);
}
}
redraw_text();
}
return 0;
}
BIM_COMMAND(help,"help","Show help text.") {
if (argc < 2) {
render_commandline_message(""); /* To clear command line */
render_commandline_message("\n");
render_commandline_message(" \033[1mbim - a text editor \033[22m\n");
render_commandline_message("\n");
render_commandline_message(" Available commands:\n");
render_commandline_message(" Quit with \033[3m:q\033[23m, \033[3m:qa\033[23m, \033[3m:q!\033[23m, \033[3m:qa!\033[23m\n");
render_commandline_message(" Write out with \033[3m:w \033[4mfile\033[24;23m\n");
render_commandline_message(" Set syntax with \033[3m:syntax \033[4mlanguage\033[24;23m\n");
render_commandline_message(" Open a new tab with \033[3m:e \033[4mpath/to/file\033[24;23m\n");
render_commandline_message(" \033[3m:tabn\033[23m and \033[3m:tabp\033[23m can be used to switch tabs\n");
render_commandline_message(" Set the color scheme with \033[3m:theme \033[4mtheme\033[24;23m\n");
render_commandline_message(" Set the behavior of the tab key with \033[3m:tabs\033[23m or \033[3m:spaces\033[23m\n");
render_commandline_message(" Set tabstop with \033[3m:tabstop \033[4mwidth\033[24;23m\n");
render_commandline_message("\n");
render_commandline_message(" Bim %s%s\n", BIM_VERSION, BIM_BUILD_DATE);
render_commandline_message(" %s\n", BIM_COPYRIGHT);
render_commandline_message("\n");
} else {
int found = 0;
for (struct command_def * c = regular_commands; !found && regular_commands && c->name; ++c) {
if (!strcmp(c->name, argv[1])) {
render_commandline_message(""); /* To clear command line */
render_commandline_message("Help description for `%s`:\n", c->name);
render_commandline_message(" %s\n", c->description);
found = 1;
break;
}
}
for (struct command_def * c = prefix_commands; !found && prefix_commands && c->name; ++c) {
if (!strcmp(c->name, argv[1])) {
render_commandline_message(""); /* To clear command line */
render_commandline_message("Help description for `%s`:\n", c->name);
render_commandline_message(" %s\n", c->description);
found = 1;
break;
}
}
if (!found) {
render_error("Unknown command: %s", argv[1]);
return 1;
}
}
/* Redrawing the tabbar makes it look like we just shifted the whole view up */
redraw_tabbar();
redraw_commandline();
/* Wait for a character so we can redraw the screen before continuing */
pause_for_key();
return 0;
}
BIM_COMMAND(version,"version","Show version information.") {
render_status_message("Bim %s%s", BIM_VERSION, BIM_BUILD_DATE);
return 0;
}
BIM_COMMAND(theme,"theme","Set color theme") {
if (argc < 2) {
render_status_message("theme=%s", current_theme);
} else {
for (struct theme_def * d = themes; themes && d->name; ++d) {
if (!strcmp(argv[1], d->name)) {
ptrdiff_t before = krk_currentThread.stackTop - krk_currentThread.stack;
krk_push(OBJECT_VAL(d->callable));
KrkValue result = krk_callStack(0);
krk_currentThread.stackTop = krk_currentThread.stack + before;
if (IS_NONE(result) && (krk_currentThread.flags & KRK_THREAD_HAS_EXCEPTION)) {
render_error("Exception occurred in theme: %s", AS_INSTANCE(krk_currentThread.currentException)->_class->name->chars);
krk_dumpTraceback();
int key = 0;
while ((key = bim_getkey(DEFAULT_KEY_WAIT)) == KEY_TIMEOUT);
}
redraw_all();
return 0;
}
}
}
return 0;
}
BIM_ALIAS("colorscheme",colorscheme,theme)
BIM_COMMAND(splitpercent,"splitpercent","Display or change view split") {
if (argc < 2) {
render_status_message("splitpercent=%d", global_config.split_percent);
return 0;
} else {
global_config.split_percent = atoi(argv[1]);
if (left_buffer) {
update_split_size();
redraw_all();
}
}
return 0;
}
BIM_COMMAND(split,"split","Split the current view.") {
buffer_t * original = env;
if (argc > 1) {
int is_not_number = 0;
for (char * c = argv[1]; *c; ++c) is_not_number |= !isdigit(*c);
if (is_not_number) {
/* Open a file for the new split */
open_file(argv[1]);
right_buffer = buffers[buffers_len-1];
} else {
/* Use an existing buffer for the new split */
int other = atoi(argv[1]);
if (other >= buffers_len || other < 0) {
render_error("Invalid buffer number: %d", other);
return 1;
}
right_buffer = buffers[other];
}
} else {
/* Use the current buffer for the new split */
right_buffer = original;
}
left_buffer = original;
update_split_size();
redraw_all();
return 0;
}
BIM_COMMAND(unsplit,"unsplit","Show only one buffer on screen") {
unsplit();
return 0;
}
BIM_COMMAND(horizontalscrolling,"horizontalscrolling","Set the horizontal scrolling mode") {
if (argc < 2) {
render_status_message("horizontalscrolling=%d", global_config.horizontal_shift_scrolling);
return 0;
} else {
global_config.horizontal_shift_scrolling = !!atoi(argv[1]);
redraw_all();
}
return 0;
}
BIM_COMMAND(syntax,"syntax","Show or set the active syntax highlighter") {
if (argc < 2) {
render_status_message("syntax=%s", env->syntax ? env->syntax->name : "none");
} else {
set_syntax_by_name(argv[1]);
}
return 0;
}
BIM_COMMAND(recalc,"recalc","Recalculate syntax for the entire file.") {
schedule_complete_recalc();
redraw_all();
return 0;
}
BIM_COMMAND(tabstop,"tabstop","Show or set the tabstop (width of an indentation unit)") {
if (argc < 2) {
render_status_message("tabstop=%d", env->tabstop);
} else {
int t = atoi(argv[1]);
if (t > 0 && t < 12) {
env->tabstop = t;
for (int i = 0; i < env->line_count; ++i) {
recalculate_tabs(env->lines[i]);
}
redraw_all();
} else {
render_error("Invalid tabstop: %s", argv[1]);
}
}
return 0;
}
BIM_COMMAND(spaces,"spaces","Use spaces for indentation") {
env->tabs = 0;
if (argc > 1) {
bim_command_tabstop("tabstop", argc, argv);
}
redraw_statusbar();
return 0;
}
BIM_COMMAND(tabs,"tabs","Use tabs for indentation") {
env->tabs = 1;
if (argc > 1) {
bim_command_tabstop("tabstop", argc, argv);
}
redraw_statusbar();
return 0;
}
BIM_COMMAND(clearyear,"clearyank","Clear the yank buffer") {
if (global_config.yanks) {
for (unsigned int i = 0; i < global_config.yank_count; ++i) {
free(global_config.yanks[i]);
}
free(global_config.yanks);
global_config.yanks = NULL;
global_config.yank_count = 0;
redraw_statusbar();
}
return 0;
}
BIM_COMMAND(padding,"padding","Show or set cursor padding when scrolling vertically") {
if (argc < 2) {
render_status_message("padding=%d", global_config.cursor_padding);
} else {
global_config.cursor_padding = atoi(argv[1]);
if (env) {
place_cursor_actual();
}
}
return 0;
}
BIM_COMMAND(smartcase,"smartcase","Show or set the status of the smartcase search option") {
if (argc < 2) {
render_status_message("smartcase=%d", global_config.smart_case);
} else {
global_config.smart_case = atoi(argv[1]);
if (env) place_cursor_actual();
}
return 0;
}
BIM_COMMAND(hlparen,"hlparen","Show or set the configuration option to highlight matching braces") {
if (argc < 2) {
render_status_message("hlparen=%d", global_config.highlight_parens);
} else {
global_config.highlight_parens = atoi(argv[1]);
if (env) {
for (int i = 0; i < env->line_count; ++i) {
for (int j = 0; j < env->lines[i]->actual; ++j) {
env->lines[i]->text[j].flags &= (~FLAG_SELECT);
}
}
redraw_text();
place_cursor_actual();
}
}
return 0;
}
BIM_COMMAND(hlcurrent,"hlcurrent","Show or set the configuration option to highlight the current line") {
if (argc < 2) {
render_status_message("hlcurrent=%d", global_config.highlight_current_line);
} else {
global_config.highlight_current_line = atoi(argv[1]);
if (env) {
if (!global_config.highlight_current_line) {
for (int i = 0; i < env->line_count; ++i) {
env->lines[i]->is_current = 0;
}
}
redraw_text();
place_cursor_actual();
}
}
return 0;
}
BIM_COMMAND(crnl,"crnl","Show or set the line ending mode") {
if (argc < 2) {
render_status_message("crnl=%d", env->crnl);
} else {
env->crnl = !!atoi(argv[1]);
redraw_statusbar();
}
return 0;
}
BIM_COMMAND(global_numbers,"global.numbers","Set whether numbers are displayed by default") {
if (argc < 2) {
render_status_message("global.numbers=%d", global_config.numbers);
} else {
global_config.numbers = !!atoi(argv[1]);
redraw_all();
}
return 0;
}
BIM_COMMAND(global_statusbar,"global.statusbar","Show or set whether to display the statusbar") {
if (argc < 2) {
render_status_message("global.statusbar=%d",!global_config.hide_statusbar);
} else {
global_config.hide_statusbar = !atoi(argv[1]);
global_config.bottom_size = global_config.hide_statusbar ? 1 : 2;
redraw_all();
}
return 0;
}
BIM_COMMAND(global_search_wraps,"wrapsearch","Enable search wrapping around from top or bottom") {
if (argc < 2) {
render_status_message("wrapsearch=%d",global_config.search_wraps);
} else {
global_config.search_wraps = !!atoi(argv[1]);
}
return 0;
}
BIM_COMMAND(smartcomplete,"smartcomplete","Enable autocompletion while typing") {
if (argc < 2) {
render_status_message("smartcomplete=%d",global_config.smart_complete);
} else {
global_config.smart_complete = !!atoi(argv[1]);
}
return 0;
}
BIM_COMMAND(global_autohide_tabs,"global.autohidetabs","Whether to show the tab bar when there is only one tab") {
if (argc < 2) {
render_status_message("global.autohidetabs=%d", global_config.autohide_tabs);
} else {
global_config.autohide_tabs = !!atoi(argv[1]);
global_config.tabs_visible = (!global_config.autohide_tabs) || (buffers_len > 1);
redraw_all();
}
return 0;
}
BIM_COMMAND(numbers,"numbers","Show or set the display of line numbers") {
if (argc < 2) {
render_status_message("numbers=%d", env->numbers);
} else {
env->numbers = !!atoi(argv[1]);
redraw_all();
}
return 0;
}
BIM_COMMAND(relativenumbers,"relativenumbers","Show or set the display of relative line numbers") {
if (argc < 2) {
render_status_message("relativenumber=%d", global_config.relative_lines);
} else {
global_config.relative_lines = atoi(argv[1]);
if (env) {
if (!global_config.relative_lines) {
for (int i = 0; i < env->line_count; ++i) {
env->lines[i]->is_current = 0;
}
}
redraw_text();
place_cursor_actual();
}
}
return 0;
}
BIM_COMMAND(buffers,"buffers","Show the open buffers") {
for (int i = 0; i < buffers_len; ++i) {
render_commandline_message("%d: %s\n", i, buffers[i]->file_name ? buffers[i]->file_name : "(no name)");
}
redraw_tabbar();
redraw_commandline();
pause_for_key();
return 0;
}
BIM_COMMAND(keyname,"keyname","Press and key and get its name.") {
int c;
render_commandline_message("(press a key)");
while ((c = bim_getkey(DEFAULT_KEY_WAIT)) == KEY_TIMEOUT);
render_commandline_message("%d = %s", c, name_from_key(c));
return 0;
}
int isSubstitutionSymbol(int c) {
if (c >= '!' && c <= '/') return 1;
if (c >= ':' && c <= '@') return 1;
if (c >= '[' && c <= '`') return 1;
if (c >= '{' && c <= '~') return 1;
return 0;
}
int alldigits(const char * c) {
while (*c) {
if (!isdigit(*c)) return 0;
c++;
}
return 1;
}
/**
* Process a user command.
*/
int process_krk_command(const char * cmd, KrkValue * outVal);
int process_command(char * cmd) {
if (cmd[0] == '-' && alldigits(&cmd[1])) {
goto_line(env->line_no-atoi(&cmd[1]));
return 0;
} else if (cmd[0] == '+' && alldigits(&cmd[1])) {
goto_line(env->line_no+atoi(&cmd[1]));
return 0;
} else if (alldigits(cmd)) {
goto_line(atoi(cmd));
return 0;
} else if (cmd[0] == '!') {
return _prefix_command_run_script(cmd);
} else if (cmd[0] == 's' && isSubstitutionSymbol(cmd[1])) {
return bim_command_repsome(cmd, 0, NULL);
} else if (cmd[0] == '%' && cmd[1] == 's') {
return bim_command_repall(cmd, 0, NULL);
}
/* See if it's a bim command in the classic format */
{
char * argv[3] = {NULL, NULL, NULL};
int argc = !!(*cmd);
char cmd_name[512] = {0};
for (char * c = (char*)cmd; *c; ++c) {
if (c-cmd == 511) break;
if (*c == ' ') {
cmd_name[c-cmd] = '\0';
while (*c == ' ') c++;
argv[1] = c;
if (*argv[1]) argc++;
break;
}
cmd_name[c-cmd] = *c;
}
argv[0] = cmd_name;
argv[argc] = NULL;
for (struct command_def * c = regular_commands; regular_commands && c->name; ++c) {
if (!strcmp(argv[0], c->name)) {
krk_resetStack();
return c->command((char*)cmd, argc, argv);
}
}
}
int retval = process_krk_command(cmd, NULL);
return retval;
}
struct Candidate {
char * text;
int type;
};
/**
* Wrap strcmp for use with qsort.
*/
int compare_candidate(const void * a, const void * b) {
const struct Candidate *_a = a;
const struct Candidate *_b = b;
return strcmp(_a->text, _b->text);
}
/**
* List of file extensions to ignore when tab completing.
*/
const char * tab_complete_ignore[] = {".o",".lo",NULL};
/**
* Wrapper around krk_valueGetAttribute...
*/
static KrkValue findFromProperty(KrkValue current, KrkToken next) {
KrkValue member = OBJECT_VAL(krk_copyString(next.start, next.literalWidth));
krk_push(member);
KrkValue value = krk_valueGetAttribute_default(current, AS_CSTRING(member), NONE_VAL());
krk_pop();
return value;
}
/**
* Tab completion for command mode.
*/
void command_tab_complete(char * buffer) {
/* Figure out which argument this is and where it starts */
int arg = 0;
char * buf = strdup(buffer);
char * b = buf;
int args_count = 0;
int args_space = 4;
char ** args = malloc(sizeof(char*)*args_space);
#define add_arg(argument) \
do { \
if (args_count == args_space) { \
args_space *= 2; \
args = realloc(args, sizeof(char*) * args_space); \
} \
args[args_count++] = argument; \
} while (0)
int candidate_count= 0;
int candidate_space = 4;
struct Candidate * candidates = malloc(sizeof(struct Candidate)*candidate_space);
/* Accept whitespace before first argument */
while (*b == ' ') b++;
char * start = b;
add_arg(start);
while (*b && *b != ' ') b++;
while (*b) {
while (*b == ' ') {
*b = '\0';
b++;
}
start = b;
arg++;
add_arg(start);
break;
}
/**
* Check a possible candidate and add it to the
* candidates list, expanding as necessary,
* if it matches for the current argument.
*/
#define add_candidate(candidate,candtype) \
do { \
char * _arg = args[arg]; \
int r = strncmp(_arg, candidate, strlen(_arg)); \
if (!r) { \
int skip = 0; \
for (int i = 0; i < candidate_count; ++i) { \
if (!strcmp(candidates[i].text,candidate)) { skip = 1; break; } \
} \
if (skip) break; \
if (candidate_count == candidate_space) { \
candidate_space *= 2; \
candidates = realloc(candidates,sizeof(struct Candidate) * candidate_space); \
} \
candidates[candidate_count].text = strdup(candidate); \
candidates[candidate_count].type = candtype; \
candidate_count++; \
} \
} while (0)
#define Candidate_Normal 0
#define Candidate_Command 1
#define Candidate_Builtin 2
int _candidates_are_files = 0;
if (arg == 0 || (arg == 1 && !strcmp(args[0], "help"))) {
/* Complete command names */
for (struct command_def * c = regular_commands; regular_commands && c->name; ++c) {
add_candidate(c->name,Candidate_Command);
}
for (struct command_def * c = prefix_commands; prefix_commands && c->name; ++c) {
add_candidate(c->name,Candidate_Command);
}
goto _try_kuroko;
}
if (arg == 1 && !strcmp(args[0], "syntax")) {
/* Complete syntax options */
add_candidate("none", Candidate_Builtin);
for (struct syntax_definition * s = syntaxes; syntaxes && s->name; ++s) {
add_candidate(s->name, Candidate_Builtin);
}
goto _accept_candidate;
}
if (arg == 1 && (!strcmp(args[0], "theme") || !strcmp(args[0], "colorscheme"))) {
/* Complete color theme names */
for (struct theme_def * s = themes; themes && s->name; ++s) {
add_candidate(s->name, Candidate_Builtin);
}
goto _accept_candidate;
}
if (arg == 1 && (!strcmp(args[0], "setcolor"))) {
for (struct ColorName * c = color_names; c->name; ++c) {
add_candidate(c->name, Candidate_Builtin);
}
goto _accept_candidate;
}
if (arg == 1 && (!strcmp(args[0], "action"))) {
for (struct action_def * a = mappable_actions; a->name; ++a) {
add_candidate(a->name, Candidate_Builtin);
}
goto _accept_candidate;
}
if (arg == 1 && (!strcmp(args[0], "mapkey"))) {
for (int i = 0; args[arg][i]; ++i) {
if (args[arg][i] == ' ') {
while (args[arg][i] == ' ') {
args[arg][i] = '\0';
i++;
}
start = &args[arg][i];
arg++;
add_arg(start);
i = 0;
}
}
if (arg == 1) {
for (struct mode_names * m = mode_names; m->name; ++m) {
add_candidate(m->name, Candidate_Builtin);
}
} else if (arg == 2) {
for (unsigned int i = 0; i < sizeof(KeyNames)/sizeof(KeyNames[0]); ++i) {
add_candidate(KeyNames[i].name, Candidate_Builtin);
}
} else if (arg == 3) {
for (struct action_def * a = mappable_actions; a->name; ++a) {
add_candidate(a->name, Candidate_Builtin);
}
add_candidate("none", Candidate_Builtin);
} else if (arg == 4) {
for (char * c = "racnwmb"; *c; ++c) {
char tmp[] = {*c,'\0'};
add_candidate(tmp, Candidate_Builtin);
}
}
goto _accept_candidate;
}
if (arg == 1 && (!strcmp(args[0], "e") || !strcmp(args[0], "tabnew") ||
!strcmp(args[0],"split") || !strcmp(args[0],"w") || !strcmp(args[0],"runscript") ||
!strcmp(args[0],"rundir") || args[0][0] == '!')) {
/* Complete file paths */
/* First, find the deepest directory match */
char * tmp = strdup(args[arg]);
char * last_slash = strrchr(tmp, '/');
DIR * dirp;
if (last_slash) {
*last_slash = '\0';
if (last_slash == tmp) {
/* Started with slash, and it was the only slash */
dirp = opendir("/");
} else {
char * home;
if (*tmp == '~' && (home = getenv("HOME"))) {
char * t = malloc(strlen(tmp) + strlen(home) + 4);
sprintf(t, "%s%s",home,tmp+1);
dirp = opendir(t);
free(t);
} else {
dirp = opendir(tmp);
}
}
} else {
/* No directory match, completing from current directory */
dirp = opendir(".");
tmp[0] = '\0';
}
if (!dirp) {
/* Directory match doesn't exist, no candidates to populate */
free(tmp);
goto done;
}
_candidates_are_files = 1;
struct dirent * ent = readdir(dirp);
while (ent != NULL) {
if (ent->d_name[0] != '.' || (last_slash ? (last_slash[1] == '.') : (tmp[0] == '.'))) {
struct stat statbuf;
/* Figure out if this file is a directory */
if (last_slash) {
char * x;
char * home;
if (tmp[0] == '~' && (home = getenv("HOME"))) {
x = malloc(strlen(tmp) + 1 + strlen(ent->d_name) + 1 + strlen(home) + 1);
snprintf(x, strlen(tmp) + 1 + strlen(ent->d_name) + 1 + strlen(home) + 1, "%s%s/%s",home,tmp+1,ent->d_name);
} else {
x = malloc(strlen(tmp) + 1 + strlen(ent->d_name) + 1);
snprintf(x, strlen(tmp) + 1 + strlen(ent->d_name) + 1, "%s/%s",tmp,ent->d_name);
}
stat(x, &statbuf);
free(x);
} else {
stat(ent->d_name, &statbuf);
}
/* Build the complete argument name to tab complete */
int type = Candidate_Normal;
char s[1024] = {0};
if (last_slash == tmp) {
strcat(s,"/");
} else if (*tmp) {
strcat(s,tmp);
strcat(s,"/");
}
strcat(s,ent->d_name);
/*
* If it is a directory, add a / to the end so the next completion
* attempt will complete the directory's contents.
*/
if (S_ISDIR(statbuf.st_mode)) {
strcat(s,"/");
type = Candidate_Command;
}
int skip = 0;
for (const char ** c = tab_complete_ignore; *c; ++c) {
if (str_ends_with(s, *c)) {
skip = 1;
break;
}
}
if (!skip) {
add_candidate(s, type);
}
}
ent = readdir(dirp);
}
closedir(dirp);
free(tmp);
goto _accept_candidate;
}
/* Hacky port of the kuroko repl completer */
_try_kuroko:
{
KrkScanner scanner = krk_initScanner(buffer);
KrkToken * space = malloc(sizeof(KrkToken) * (strlen(buffer) + 2));
int count = 0;
do {
space[count++] = krk_scanToken(&scanner);
} while (space[count-1].type != TOKEN_EOF && space[count-1].type != TOKEN_ERROR);
if (count == 1) {
goto _cleanup;
}
int base = 2;
int n = base;
if (space[count-base].type == TOKEN_DOT) {
/* Dots we need to look back at the previous tokens for */
n--;
base--;
} else if (space[count-base].type >= TOKEN_IDENTIFIER && space[count-base].type <= TOKEN_WITH) {
/* Something alphanumeric; only for the last element */
} else {
/* Some other symbol */
goto _cleanup;
}
while (n < count) {
if (space[count-n-1].type != TOKEN_DOT) break;
n++;
if (n == count) break;
if (space[count-n-1].type != TOKEN_IDENTIFIER) break;
n++;
}
if (n <= count) {
/* Now work forwards, starting from the current globals. */
KrkValue root = OBJECT_VAL(krk_currentThread.module);
int isGlobal = 1;
while (n > base) {
/* And look at the potential fields for instances/classes */
KrkValue next = findFromProperty(root, space[count-n]);
if (IS_NONE(next)) {
/* If we hit None, we found something invalid (or literally hit a None
* object, but really the difference is minimal in this case: Nothing
* useful to tab complete from here. */
if (!isGlobal) goto _cleanup;
/* Does this match a builtin? */
if (!krk_tableGet_fast(&vm.builtins->fields,
krk_copyString(space[count-n].start,space[count-n].literalWidth), &next) || IS_NONE(next)) {
goto _cleanup;
}
}
isGlobal = 0;
root = next;
n -= 2; /* To skip every other dot. */
}
if (isGlobal && n < count && (space[count-n-1].type == TOKEN_IMPORT || space[count-n-1].type == TOKEN_FROM)) {
KrkInstance * modules = krk_newInstance(vm.baseClasses->objectClass);
root = OBJECT_VAL(modules);
krk_push(root);
for (size_t i = 0; i < vm.modules.capacity; ++i) {
KrkTableEntry * entry = &vm.modules.entries[i];
if (IS_KWARGS(entry->key)) continue;
krk_attachNamedValue(&modules->fields, AS_CSTRING(entry->key), NONE_VAL());
}
}
/* Now figure out what we're completing - did we already have a partial symbol name? */
int length = (space[count-base].type == TOKEN_DOT) ? 0 : (space[count-base].length);
isGlobal = isGlobal && (length != 0);
/* Take the last symbol name from the chain and get its member list from dir() */
static char * syn_krk_keywords[] = {
"and","class","def","else","for","if","in","import","del",
"let","not","or","return","while","try","except","raise",
"continue","break","as","from","elif","lambda","with","is",
"pass","assert","yield","finally","async","await",
NULL
};
KrkInstance * fakeKeywordsObject = NULL;
for (;;) {
KrkValue dirList = krk_dirObject(1,(KrkValue[]){root},0);
krk_push(dirList);
if (!IS_INSTANCE(dirList)) {
render_error("Internal error while tab completing.");
goto _cleanup;
}
for (size_t i = 0; i < AS_LIST(dirList)->count; ++i) {
KrkString * s = AS_STRING(AS_LIST(dirList)->values[i]);
krk_push(OBJECT_VAL(s));
KrkToken asToken = {.start = s->chars, .literalWidth = s->length};
KrkValue thisValue = findFromProperty(root, asToken);
krk_push(thisValue);
if (IS_CLOSURE(thisValue) || IS_BOUND_METHOD(thisValue) || IS_NATIVE(thisValue)) {
size_t allocSize = s->length + 2;
char * tmp = malloc(allocSize);
size_t len = snprintf(tmp, allocSize, "%s(", s->chars);
s = krk_takeString(tmp, len);
krk_pop();
krk_push(OBJECT_VAL(s));
}
/* If this symbol is shorter than the current submatch, skip it. */
if (length && (int)s->length < length) continue;
if (!memcmp(s->chars, space[count-base].start, length)) {
char * tmp = malloc(strlen(args[arg]) + s->length + 1);
sprintf(tmp,"%s%s", args[arg], s->chars + length);
int type = Candidate_Normal;
if (IS_OBJECT(root) && AS_OBJECT(root) == (KrkObj*)vm.builtins) {
type = Candidate_Builtin;
} else if (IS_OBJECT(root) && AS_OBJECT(root) == (KrkObj*)fakeKeywordsObject) {
type = Candidate_Command;
}
add_candidate(tmp, type);
free(tmp);
}
}
/*
* If the object we were scanning was the current module,
* then we should also throw the builtins into the ring.
*/
if (isGlobal && AS_OBJECT(root) == (KrkObj*)krk_currentThread.module) {
root = OBJECT_VAL(vm.builtins);
continue;
} else if (isGlobal && AS_OBJECT(root) == (KrkObj*)vm.builtins) {
fakeKeywordsObject = krk_newInstance(vm.baseClasses->objectClass);
root = OBJECT_VAL(fakeKeywordsObject);
krk_push(root);
for (char ** keyword = syn_krk_keywords; *keyword; keyword++) {
krk_attachNamedValue(&fakeKeywordsObject->fields, *keyword, NONE_VAL());
}
continue;
} else {
break;
}
}
}
_cleanup:
free(space);
krk_resetStack();
}
_accept_candidate:
if (candidate_count == 0) {
redraw_statusbar();
goto done;
}
if (candidate_count == 1) {
/* Only one completion possibility */
redraw_statusbar();
/* Fill out the rest of the command */
char * cstart = (buffer) + (start - buf);
for (unsigned int i = 0; i < strlen(candidates[0].text); ++i) {
*cstart = candidates[0].text[i];
cstart++;
}
*cstart = '\0';
} else {
/* Sort candidates */
qsort(candidates, candidate_count, sizeof(candidates[0]), compare_candidate);
/* Print candidates in status bar */
char * tmp = malloc(global_config.term_width+1 + candidate_count * 100);
memset(tmp, 0, global_config.term_width+1);
int offset = 0;
for (int i = 0; i < candidate_count; ++i) {
char * printed_candidate = candidates[i].text;
if (_candidates_are_files) {
for (char * c = printed_candidate; *c; ++c) {
if (c[0] == '/' && c[1] != '\0') {
printed_candidate = c+1;
}
}
} else {
for (char * c = printed_candidate; *c; ++c) {
if ((c[0] == '.' || c[0] == '(') && c[1] != '\0') {
printed_candidate = c+1;
}
}
}
if (offset + 1 + (signed)strlen(printed_candidate) > global_config.term_width - 5) {
strcat(tmp, "...");
break;
}
if (offset > 0) {
strcat(tmp, " ");
offset++;
}
const char * colorString = color_string(
candidates[i].type == Candidate_Normal ? COLOR_STATUS_FG :
candidates[i].type == Candidate_Command ? COLOR_KEYWORD :
candidates[i].type == Candidate_Builtin ? COLOR_TYPE : COLOR_STATUS_FG,
COLOR_STATUS_BG);
/* Does not affect offset */
strcat(tmp, colorString);
strcat(tmp, printed_candidate);
offset += strlen(printed_candidate);
}
render_status_message("%s", tmp);
free(tmp);
/* Complete to longest common substring */
char * cstart = (buffer) + (start - buf);
for (int i = 0; i < 1023 /* max length of command */; i++) {
for (int j = 1; j < candidate_count; ++j) {
if (candidates[0].text[i] != candidates[j].text[i]) goto _reject;
}
*cstart = candidates[0].text[i];
cstart++;
}
/* End of longest common substring */
_reject:
*cstart = '\0';
/* Just make sure the buffer doesn't end on an incomplete multibyte sequence */
if (start > buf) { /* Start point needs to be something other than first byte */
char * tmp = cstart - 1;
if ((*tmp & 0xC0) == 0x80) {
/* Count back until we find the start byte and make sure we have the right number */
int count = 1;
int x = 0;
while (tmp >= start) {
x++;
tmp--;
if ((*tmp & 0xC0) == 0x80) {
count++;
} else if ((*tmp & 0xC0) == 0xC0) {
/* How many should we have? */
int i = 1;
int j = *tmp;
while (j & 0x20) {
i += 1;
j <<= 1;
}
if (count != i) {
*tmp = '\0';
break;
}
break;
} else {
/* This isn't right, we had a bad multibyte sequence? Or someone is typing Latin-1. */
tmp++;
*tmp = '\0';
break;
}
}
} else if ((*tmp & 0xC0) == 0xC0) {
*tmp = '\0';
}
}
}
/* Free candidates */
for (int i = 0; i < candidate_count; ++i) {
free(candidates[i].text);
}
done:
free(candidates);
free(buf);
}
/**
* Macros for use in command mode.
*/
#define _syn_command() do { env->syntax = global_config.command_syn; } while (0)
#define _syn_restore() do { env->syntax = global_config.command_syn_back; } while (0)
/**
* Draw the command buffer and any prefix.
*/
void render_command_input_buffer(void) {
if (!global_config.command_buffer) return;
/* Place the cursor at the bottom of the screen */
place_cursor(1, global_config.term_height);
paint_line(COLOR_BG);
set_colors(COLOR_ALT_FG, COLOR_BG);
/* If there's a mode name to render, draw it first */
int _left_gutter = 0;
if (env->mode == MODE_LINE_SELECTION) {
_left_gutter = printf("(LINE %d:%d)",
(env->start_line < env->line_no) ? env->start_line : env->line_no,
(env->start_line < env->line_no) ? env->line_no : env->start_line);
} else if (env->mode == MODE_COL_SELECTION) {
_left_gutter = printf("(COL %d:%d %d)",
(env->start_line < env->line_no) ? env->start_line : env->line_no,
(env->start_line < env->line_no) ? env->line_no : env->start_line,
(env->sel_col));
} else if (env->mode == MODE_CHAR_SELECTION) {
_left_gutter = printf("(CHAR)");
}
/* Figure out the cursor position and adjust the offset if necessary */
int x = 2 + _left_gutter - global_config.command_offset;
for (int i = 0; i < global_config.command_col_no - 1; ++i) {
char_t * c = &global_config.command_buffer->text[i];
x += c->display_width;
}
if (x > global_config.term_width - 1) {
int diff = x - (global_config.term_width - 1);
global_config.command_offset += diff;
x -= diff;
}
if (x < 2 + _left_gutter) {
int diff = (2 + _left_gutter) - x;
global_config.command_offset -= diff;
x += diff;
}
/* If the input buffer is horizontally shifted because it's too long, indicate that. */
if (global_config.command_offset) {
set_colors(COLOR_ALT_FG, COLOR_ALT_BG);
printf("<");
} else {
/* Otherwise indicate buffer mode (search / ?, or command :) */
set_colors(COLOR_FG, COLOR_BG);
if (global_config.overlay_mode == OVERLAY_MODE_SEARCH) {
printf(global_config.search_direction == 0 ? "?" : "/");
} else if (global_config.overlay_mode == OVERLAY_MODE_FILESEARCH) {
printf("_");
} else {
printf(":");
}
}
/* Render the buffer */
render_line(global_config.command_buffer, global_config.term_width-1-_left_gutter, global_config.command_offset, -1);
/* Place and display the cursor */
place_cursor(x, global_config.term_height);
show_cursor();
}
BIM_ACTION(command_discard, 0,
"Discard the input buffer and cancel command or search."
,void) {
free(global_config.command_buffer);
global_config.command_buffer = NULL;
if (global_config.overlay_mode == OVERLAY_MODE_SEARCH) {
env->line_no = global_config.prev_line;
env->col_no = global_config.prev_col;
/* Unhighlight search matches */
for (int i = 0; i < env->line_count; ++i) {
for (int j = 0; j < env->lines[i]->actual; ++j) {
env->lines[i]->text[j].flags &= (~FLAG_SEARCH);
}
rehighlight_search(env->lines[i]);
}
}
global_config.overlay_mode = OVERLAY_MODE_NONE;
redraw_all();
/* TODO exit some other modes? */
}
BIM_ACTION(enter_command, 0,
"Enter command input mode."
,void) {
global_config.overlay_mode = OVERLAY_MODE_COMMAND;
global_config.command_offset = 0;
global_config.command_col_no = 1;
if (global_config.command_buffer) {
free(global_config.command_buffer);
}
global_config.command_buffer = calloc(sizeof(line_t)+sizeof(char_t)*32,1);
global_config.command_buffer->available = 32;
global_config.command_syn_back = env->syntax;
global_config.command_syn = find_syntax_calculator("bimcmd");
global_config.history_point = -1;
render_command_input_buffer();
}
static char * command_buffer_to_utf8(void) {
size_t size = 0;
for (int i = 0; i < global_config.command_buffer->actual; ++i) {
char tmp[8] = {0};
size += to_eight(global_config.command_buffer->text[i].codepoint, tmp);
}
char * tmp = malloc(size + 8); /* for overflow from to_eight */
char * t = tmp;
for (int i = 0; i < global_config.command_buffer->actual; ++i) {
t += to_eight(global_config.command_buffer->text[i].codepoint, t);
}
*t = '\0';
return tmp;
}
BIM_ACTION(command_accept, 0,
"Accept the command input and run the requested command."
,void) {
/* Convert command buffer to UTF-8 char-array string */
char * tmp = command_buffer_to_utf8();
/* Free the original editing buffer */
free(global_config.command_buffer);
global_config.command_buffer = NULL;
/* Run the converted command */
global_config.break_from_selection = 0;
insert_command_history(command_history, tmp);
global_config.overlay_mode = OVERLAY_MODE_NONE;
process_command(tmp);
free(tmp);
if (!global_config.break_from_selection && env->mode != MODE_DIRECTORY_BROWSE) {
if (env->mode == MODE_LINE_SELECTION || env->mode == MODE_CHAR_SELECTION || env->mode == MODE_COL_SELECTION) {
recalculate_selected_lines();
}
env->mode = MODE_NORMAL;
}
/* Leave command mode */
}
BIM_ACTION(command_word_delete, 0,
"Delete the previous word from the input buffer."
,void) {
_syn_command();
while (global_config.command_col_no > 1 &&
(global_config.command_buffer->text[global_config.command_col_no-2].codepoint == ' ' ||
global_config.command_buffer->text[global_config.command_col_no-2].codepoint == '/')) {
line_delete(global_config.command_buffer, global_config.command_col_no - 1, -1);
global_config.command_col_no--;
}
while (global_config.command_col_no > 1 &&
global_config.command_buffer->text[global_config.command_col_no-2].codepoint != ' ' &&
global_config.command_buffer->text[global_config.command_col_no-2].codepoint != '/') {
line_delete(global_config.command_buffer, global_config.command_col_no - 1, -1);
global_config.command_col_no--;
}
_syn_restore();
}
BIM_ACTION(command_tab_complete_buffer, 0,
"Complete command names and arguments in the input buffer."
,void) {
/* command_tab_complete should probably just be adjusted to deal with the buffer... */
char * tmp = calloc(1024,1);
char * t = tmp;
for (int i = 0; i < global_config.command_col_no-1; ++i) {
t += to_eight(global_config.command_buffer->text[i].codepoint, t);
}
*t = '\0';
_syn_command();
while (global_config.command_col_no > 1) {
line_delete(global_config.command_buffer, global_config.command_col_no - 1, -1);
global_config.command_col_no--;
}
_syn_restore();
command_tab_complete(tmp);
_syn_command();
uint32_t state = 0, c= 0;
t = tmp;
while (*t) {
if (!decode(&state, &c, *t)) {
char_t _c = {codepoint_width(c), 0, c};
global_config.command_buffer = line_insert(global_config.command_buffer, _c, global_config.command_col_no - 1, -1);
global_config.command_col_no++;
}
t++;
}
_syn_restore();
free(tmp);
}
BIM_ACTION(command_backspace, 0,
"Erase the character before the cursor in the input buffer."
,void) {
if (global_config.command_col_no <= 1) {
if (global_config.command_buffer->actual == 0) {
command_discard();
}
return;
}
_syn_command();
line_delete(global_config.command_buffer, global_config.command_col_no - 1, -1);
_syn_restore();
global_config.command_col_no--;
global_config.command_offset = 0;
}
static void _restore_history(unsigned char **which_history, int point) {
unsigned char * t = which_history[point];
global_config.command_col_no = 1;
global_config.command_buffer->actual = 0;
_syn_command();
uint32_t state = 0;
uint32_t c = 0;
while (*t) {
if (!decode(&state, &c, *t)) {
char_t _c = {codepoint_width(c), 0, c};
global_config.command_buffer = line_insert(global_config.command_buffer, _c, global_config.command_col_no - 1, -1);
global_config.command_col_no++;
} else if (state == UTF8_REJECT) state = 0;
t++;
}
_syn_restore();
}
static void _scroll_history(int direction, unsigned char **which_history, int * which_point) {
if (direction == -1) {
if (which_history[*which_point+1]) {
_restore_history(which_history, *which_point+1);
(*which_point)++;
}
} else {
if (*which_point > 0) {
(*which_point)--;
_restore_history(which_history, *which_point);
} else {
*which_point = -1;
global_config.command_col_no = 1;
global_config.command_buffer->actual = 0;
}
}
}
BIM_ACTION(command_scroll_history, ARG_IS_CUSTOM,
"Scroll through command input history."
,int direction) {
_scroll_history(direction, command_history, &global_config.history_point);
}
BIM_ACTION(command_scroll_search_history, ARG_IS_CUSTOM,
"Scroll through search input history."
,int direction) {
_scroll_history(direction, search_history, &global_config.search_point);
}
BIM_ACTION(command_word_left, 0,
"Move to the start of the previous word in the input buffer."
,void) {
if (global_config.command_col_no > 1) {
do {
global_config.command_col_no--;
} while (isspace(global_config.command_buffer->text[global_config.command_col_no-1].codepoint) && global_config.command_col_no > 1);
if (global_config.command_col_no == 1) return;
do {
global_config.command_col_no--;
} while (!isspace(global_config.command_buffer->text[global_config.command_col_no-1].codepoint) && global_config.command_col_no > 1);
if (isspace(global_config.command_buffer->text[global_config.command_col_no-1].codepoint) && global_config.command_col_no < global_config.command_buffer->actual) global_config.command_col_no++;
}
}
BIM_ACTION(command_word_right, 0,
"Move to the start of the next word in the input buffer."
,void) {
if (global_config.command_col_no < global_config.command_buffer->actual) {
do {
global_config.command_col_no++;
if (global_config.command_col_no > global_config.command_buffer->actual) { global_config.command_col_no = global_config.command_buffer->actual+1; break; }
} while (!isspace(global_config.command_buffer->text[global_config.command_col_no-1].codepoint) && global_config.command_col_no <= global_config.command_buffer->actual);
do {
global_config.command_col_no++;
if (global_config.command_col_no > global_config.command_buffer->actual) { global_config.command_col_no = global_config.command_buffer->actual+1; break; }
} while (isspace(global_config.command_buffer->text[global_config.command_col_no-1].codepoint) && global_config.command_col_no <= global_config.command_buffer->actual);
if (global_config.command_col_no > global_config.command_buffer->actual) { global_config.command_col_no = global_config.command_buffer->actual+1; }
}
}
BIM_ACTION(command_cursor_left, 0,
"Move the cursor one character left in the input buffer."
,void) {
if (global_config.command_col_no > 1) global_config.command_col_no--;
}
BIM_ACTION(command_cursor_right, 0,
"Move the cursor one character right in the input buffer."
,void) {
if (global_config.command_col_no < global_config.command_buffer->actual+1) global_config.command_col_no++;
}
BIM_ACTION(command_cursor_home, 0,
"Move the cursor to the start of the input buffer."
,void) {
global_config.command_col_no = 1;
}
BIM_ACTION(command_cursor_end, 0,
"Move the cursor to the end of the input buffer."
,void) {
global_config.command_col_no = global_config.command_buffer->actual + 1;
}
BIM_ACTION(eat_mouse, 0,
"(temporary) Read, but ignore mouse input."
,void) {
bim_getch();
bim_getch();
bim_getch();
}
BIM_ACTION(command_insert_char, ARG_IS_INPUT,
"Insert one character into the input buffer."
,int c) {
char_t _c = {codepoint_width(c), 0, c};
_syn_command();
global_config.command_buffer = line_insert(global_config.command_buffer, _c, global_config.command_col_no - 1, -1);
_syn_restore();
global_config.command_col_no++;
}
/**
* Determine whether a string should be searched
* case-sensitive or not based on whether it contains
* any upper-case letters.
*/
int smart_case(uint32_t * str) {
if (!global_config.smart_case) return 0;
for (uint32_t * s = str; *s; ++s) {
if (tolower(*s) != (int)*s) {
return 0;
}
}
return 1;
}
/**
* Search forward from the given cursor position
* to find a basic search match.
*
* This could be more complicated...
*/
void find_match(int from_line, int from_col, int * out_line, int * out_col, uint32_t * str, int * matchlen) {
int col = from_col;
int ignorecase = smart_case(str);
for (int i = from_line; i <= env->line_count; ++i) {
line_t * line = env->lines[i - 1];
int j = col - 1;
while (j < line->actual + 1) {
if (subsearch_matches(line, j, str, ignorecase, matchlen)) {
*out_line = i;
*out_col = j + 1;
return;
}
j++;
}
col = 0;
}
}
/**
* Search backwards for matching string.
*/
void find_match_backwards(int from_line, int from_col, int * out_line, int * out_col, uint32_t * str) {
int col = from_col;
int ignorecase = smart_case(str);
for (int i = from_line; i >= 1; --i) {
line_t * line = env->lines[i-1];
int j = col - 1;
while (j > -1) {
if (subsearch_matches(line, j, str, ignorecase, NULL)) {
*out_line = i;
*out_col = j + 1;
return;
}
j--;
}
col = (i > 1) ? (env->lines[i-2]->actual + 1) : -1;
}
}
/**
* Re-mark search matches while editing text.
* This gets called after recalculate_syntax, so it works as we're typing or
* whenever syntax calculation would redraw other lines.
* XXX There's a bunch of code duplication between the (now three) search match functions.
* and search should be improved to support regex anyway, so this needs to be fixed.
*/
void rehighlight_search(line_t * line) {
if (!global_config.search) return;
int j = 0;
while (j < line->actual) {
line->text[j].flags &= ~(FLAG_SEARCH);
j++;
}
int ignorecase = smart_case(global_config.search);
j = 0;
while (j < line->actual) {
int matchlen = 0;
if (subsearch_matches(line, j, global_config.search, ignorecase, &matchlen)) {
for (int i = j; matchlen > 0; ++i, matchlen--) {
line->text[i].flags |= FLAG_SEARCH;
}
}
j++;
}
}
/**
* Draw the matched search result.
*/
void draw_search_match(uint32_t * buffer, int redraw_buffer) {
for (int i = 0; i < env->line_count; ++i) {
for (int j = 0; j < env->lines[i]->actual; ++j) {
env->lines[i]->text[j].flags &= (~FLAG_SEARCH);
}
}
int my_index = 0, match_count = 0;
int line = -1, col = -1, _line = 1, _col = 1;
do {
int matchlen;
find_match(_line, _col, &line, &col, buffer, &matchlen);
if (line != -1) {
line_t * l = env->lines[line-1];
for (int i = col; matchlen > 0; ++i, --matchlen) {
l->text[i-1].flags |= FLAG_SEARCH;
}
match_count += 1;
if (col == env->col_no && line == env->line_no) my_index = match_count;
}
_line = line;
_col = col+1;
line = -1;
col = -1;
} while (_line != -1);
redraw_text();
place_cursor_actual();
redraw_statusbar();
redraw_commandline();
set_fg_color(COLOR_ALT_FG);
printf("[%d/%d] ", my_index, match_count);
set_fg_color(COLOR_KEYWORD);
printf(redraw_buffer == 1 ? "/" : "?");
set_fg_color(COLOR_FG);
uint32_t * c = buffer;
while (*c) {
char tmp[7] = {0}; /* Max six bytes, use 7 to ensure last is always nil */
to_eight(*c, tmp);
printf("%s", tmp);
c++;
}
}
BIM_ACTION(start_file_search, 0, "Search for open files and switch tabs quickly.",void) {
global_config.overlay_mode = OVERLAY_MODE_FILESEARCH;
global_config.command_offset = 0;
global_config.command_col_no = 1;
if (global_config.command_buffer) {
free(global_config.command_buffer);
}
global_config.command_buffer = calloc(sizeof(line_t)+sizeof(char_t)*32,1);
global_config.command_buffer->available = 32;
global_config.command_syn_back = env->syntax;
global_config.command_syn = NULL; /* uh, dunno for now */
render_command_input_buffer();
}
BIM_ACTION(file_search_accept, 0, "Open the requested tab",void) {
if (!global_config.command_buffer->actual) {
goto _finish;
}
/* See if the command buffer matches any open buffers */
buffer_t * match = NULL;
for (int i = global_config.tab_offset; i < buffers_len; i++) {
buffer_t * _env = buffers[i];
if (global_config.overlay_mode == OVERLAY_MODE_FILESEARCH) {
if (global_config.command_buffer->actual) {
char * f = _env->file_name ? file_basename(_env->file_name) : "";
/* TODO: Support unicode input here; needs conversion */
int i = 0;
for (; i < global_config.command_buffer->actual &&
f[i] == global_config.command_buffer->text[i].codepoint; ++i);
if (global_config.command_buffer->actual == i) {
match = _env;
break;
}
}
}
}
if (match) {
env = match;
if (left_buffer && (left_buffer != env && right_buffer != env)) unsplit();
}
_finish:
/* Free the original editing buffer */
free(global_config.command_buffer);
global_config.command_buffer = NULL;
/* Leave command mode */
global_config.overlay_mode = OVERLAY_MODE_NONE;
redraw_all();
}
BIM_ACTION(enter_search, ARG_IS_CUSTOM,
"Enter search mode."
,int direction) {
global_config.overlay_mode = OVERLAY_MODE_SEARCH;
global_config.command_offset = 0;
global_config.command_col_no = 1;
global_config.prev_line = env->line_no;
global_config.prev_col = env->col_no;
global_config.prev_coffset = env->coffset;
global_config.prev_offset = env->offset;
global_config.search_direction = direction;
if (global_config.command_buffer) {
free(global_config.command_buffer);
}
global_config.command_buffer = calloc(sizeof(line_t)+sizeof(char_t)*32,1);
global_config.command_buffer->available = 32;
global_config.command_syn_back = env->syntax;
global_config.command_syn = NULL; /* Disable syntax highlighting in search; maybe use buffer's mode instead? */
render_command_input_buffer();
}
BIM_ACTION(search_accept, 0,
"Accept the search term and return to the previous mode."
,void) {
/* Store the accepted search */
if (!global_config.command_buffer->actual) {
if (global_config.search) {
search_next();
}
goto _finish;
}
if (global_config.search) {
free(global_config.search);
}
global_config.search = malloc((global_config.command_buffer->actual + 1) * sizeof(uint32_t));
for (int i = 0; i < global_config.command_buffer->actual; ++i) {
global_config.search[i] = global_config.command_buffer->text[i].codepoint;
}
global_config.search[global_config.command_buffer->actual] = 0;
char * tmp = command_buffer_to_utf8();
insert_command_history(search_history, tmp);
free(tmp);
_finish:
/* Free the original editing buffer */
free(global_config.command_buffer);
global_config.command_buffer = NULL;
/* Leave command mode */
global_config.overlay_mode = OVERLAY_MODE_NONE;
if (global_config.search) draw_search_match(global_config.search, global_config.search_direction);
}
/**
* Find the next search result, or loop back around if at the end.
*/
BIM_ACTION(search_next, 0,
"Jump to the next search match."
,void) {
if (!global_config.search) return;
if (env->coffset) env->coffset = 0;
int line = -1, col = -1, wrapped = 0;
find_match(env->line_no, env->col_no+1, &line, &col, global_config.search, NULL);
if (line == -1) {
if (!global_config.search_wraps) return;
find_match(1,1, &line, &col, global_config.search, NULL);
if (line == -1) return;
wrapped = 1;
}
env->col_no = col;
env->line_no = line;
set_preferred_column();
draw_search_match(global_config.search, 1);
if (wrapped) {
set_fg_color(COLOR_ALT_FG);
printf(" (search wrapped to top)");
}
}
/**
* Find the previous search result, or loop to the end of the file.
*/
BIM_ACTION(search_prev, 0,
"Jump to the preceding search match."
,void) {
if (!global_config.search) return;
if (env->coffset) env->coffset = 0;
int line = -1, col = -1, wrapped = 0;
find_match_backwards(env->line_no, env->col_no-1, &line, &col, global_config.search);
if (line == -1) {
if (!global_config.search_wraps) return;
find_match_backwards(env->line_count, env->lines[env->line_count-1]->actual, &line, &col, global_config.search);
if (line == -1) return;
wrapped = 1;
}
env->col_no = col;
env->line_no = line;
set_preferred_column();
draw_search_match(global_config.search, 0);
if (wrapped) {
set_fg_color(COLOR_ALT_FG);
printf(" (search wrapped to bottom)");
}
}
/**
* Find the matching paren for this one.
*
* This approach skips having to do its own syntax parsing
* to deal with, eg., erroneous parens in comments. It does
* this by finding the matching paren with the same flag
* value, thus parens in strings will match, parens outside
* of strings will match, but parens in strings won't
* match parens outside of strings and so on.
*/
void find_matching_paren(int * out_line, int * out_col, int in_col) {
if (env->col_no - in_col + 1 > env->lines[env->line_no-1]->actual) {
return; /* Invalid cursor position */
}
/* TODO: vim can find the nearest paren to start searching from, we need to be on one right now */
int paren_match = 0;
int direction = 0;
int start = env->lines[env->line_no-1]->text[env->col_no-in_col].codepoint;
int flags = env->lines[env->line_no-1]->text[env->col_no-in_col].flags & 0x1F;
int count = 0;
/* TODO what about unicode parens? */
for (int i = 0; paren_pairs[i]; ++i) {
if (start == paren_pairs[i]) {
direction = (i % 2 == 0) ? 1 : -1;
paren_match = paren_pairs[(i % 2 == 0) ? (i+1) : (i-1)];
break;
}
}
if (!paren_match) return;
/* Scan for match */
int line = env->line_no;
int col = env->col_no - in_col + 1;
do {
while (col > 0 && col < env->lines[line-1]->actual + 1) {
/* Only match on same syntax */
if ((env->lines[line-1]->text[col-1].flags & 0x1F) == flags) {
/* Count up on same direction */
if (env->lines[line-1]->text[col-1].codepoint == start) count++;
/* Count down on opposite direction */
if (env->lines[line-1]->text[col-1].codepoint == paren_match) {
count--;
/* When count == 0 we have a match */
if (count == 0) goto _match_found;
}
}
col += direction;
}
line += direction;
/* Reached first/last line with no match */
if (line == 0 || line == env->line_count + 1) {
return;
}
/* Reset column to start/end of line, depending on direction */
if (direction > 0) {
col = 1;
} else {
col = env->lines[line-1]->actual;
}
} while (1);
_match_found:
*out_line = line;
*out_col = col;
}
/**
* Switch to the left split view
* (Primarily to handle cases where the left and right are the same buffer)
*/
BIM_ACTION(use_left_buffer, 0,
"Switch to the left split view."
,void) {
if (left_buffer == right_buffer && env->left != 0) {
view_right_offset = env->offset;
env->width = env->left;
env->left = 0;
env->offset = view_left_offset;
}
env = left_buffer;
update_title();
}
/**
* Switch to the right split view
* (Primarily to handle cases where the left and right are the same buffer)
*/
BIM_ACTION(use_right_buffer, 0,
"Switch to the right split view."
,void) {
if (left_buffer == right_buffer && env->left == 0) {
view_left_offset = env->offset;
env->left = env->width;
env->width = global_config.term_width - env->width;
env->offset = view_right_offset;
}
env = right_buffer;
update_title();
}
void handle_common_mouse(int buttons, int x, int y) {
if (buttons == 64) {
/* Scroll up */
if (global_config.shift_scrolling) {
env->loading = 1;
int shifted = 0;
for (int i = 0; i < global_config.scroll_amount; ++i) {
if (env->offset > 0) {
env->offset--;
if (env->line_no > env->offset + global_config.term_height - global_config.bottom_size - global_config.tabs_visible - global_config.cursor_padding) {
cursor_up();
}
shifted++;
}
}
env->loading = 0;
if (!shifted) return;
if (global_config.can_scroll && !left_buffer) {
if (!global_config.can_insert) {
shift_down(shifted);
redraw_tabbar();
} else {
insert_lines_at(global_config.tabs_visible ? 2 : 1, shifted);
}
for (int i = 0; i < shifted; ++i) {
redraw_line(env->offset+i);
}
} else {
redraw_tabbar();
redraw_text();
}
redraw_statusbar();
redraw_commandline();
place_cursor_actual();
} else {
for (int i = 0; i < global_config.scroll_amount; ++i) {
cursor_up();
}
}
return;
} else if (buttons == 65) {
/* Scroll down */
if (global_config.shift_scrolling) {
env->loading = 1;
int shifted = 0;
for (int i = 0; i < global_config.scroll_amount; ++i) {
if (env->offset < env->line_count-1) {
env->offset++;
int e = (env->offset == 0) ? env->offset : env->offset + global_config.cursor_padding;
if (env->line_no <= e) {
cursor_down();
}
shifted++;
}
}
env->loading = 0;
if (!shifted) return;
if (global_config.can_scroll && !left_buffer) {
if (!global_config.can_insert) {
shift_up(shifted);
redraw_tabbar();
} else {
delete_lines_at(global_config.tabs_visible ? 2 : 1, shifted);
}
int l = global_config.term_height - global_config.bottom_size - global_config.tabs_visible;
for (int i = 0; i < shifted; ++i) {
if (env->offset + l - i < env->line_count + 1) {
redraw_line(env->offset + l-1-i);
} else {
draw_excess_line(l - 1 - i);
}
}
} else {
redraw_tabbar();
redraw_text();
}
redraw_statusbar();
redraw_commandline();
place_cursor_actual();
} else {
for (int i = 0; i < global_config.scroll_amount; ++i) {
cursor_down();
}
}
return;
} else if (buttons == 3) {
/* Move cursor to position */
if (x < 0) return;
if (y < 0) return;
if (y == 1 && global_config.tabs_visible) {
/* Pick from tabs */
if (env->mode != MODE_NORMAL && env->mode != MODE_INSERT) return; /* Don't let the tab be switched in other modes for now */
int _x = 0;
if (global_config.tab_offset) _x = 1;
if (global_config.tab_offset && _x >= x) {
global_config.tab_offset--;
redraw_tabbar();
return;
}
for (int i = global_config.tab_offset; i < buffers_len; i++) {
buffer_t * _env = buffers[i];
char tmp[64];
int size = 0;
int filled = draw_tab_name(_env, tmp, global_config.term_width - _x, &size);
_x += size;
if (_x >= x) {
if (left_buffer && buffers[i] != left_buffer && buffers[i] != right_buffer) unsplit();
env = buffers[i];
redraw_all();
update_title();
return;
}
if (filled) break;
}
if (x > _x && global_config.tab_offset < buffers_len - 1) {
global_config.tab_offset++;
redraw_tabbar();
}
return;
}
if (env->mode == MODE_NORMAL || env->mode == MODE_INSERT) {
int current_mode = env->mode;
if (x < env->left && env == right_buffer) {
use_left_buffer();
} else if (x > env->width && env == left_buffer) {
use_right_buffer();
}
env->mode = current_mode;
redraw_all();
}
if (env->left) {
x -= env->left;
}
/* Figure out y coordinate */
int line_no = y + env->offset - global_config.tabs_visible;
int col_no = -1;
if (line_no > env->line_count) {
line_no = env->line_count;
}
if (line_no != env->line_no) {
env->coffset = 0;
}
/* Account for the left hand gutter */
int num_size = num_width() + gutter_width();
int _x = num_size - (line_no == env->line_no ? env->coffset : 0);
/* Determine where the cursor is physically */
for (int i = 0; i < env->lines[line_no-1]->actual; ++i) {
char_t * c = &env->lines[line_no-1]->text[i];
_x += c->display_width;
if (_x > x-1) {
col_no = i+1;
break;
}
}
if (col_no == -1 || col_no > env->lines[line_no-1]->actual) {
col_no = env->lines[line_no-1]->actual;
}
env->line_no = line_no;
env->col_no = col_no;
set_history_break();
set_preferred_column();
redraw_statusbar();
place_cursor_actual();
}
return;
}
/**
* Handle mouse event
*/
BIM_ACTION(handle_mouse, 0,
"Process mouse actions."
,void) {
int buttons = bim_getch() - 32;
int x = bim_getch() - 32;
int y = bim_getch() - 32;
handle_common_mouse(buttons, x, y);
}
BIM_ACTION(eat_mouse_sgr, 0,
"Receive, but do not process, mouse actions."
,void) {
do {
int _c = bim_getch();
if (_c == -1 || _c == 'm' || _c == 'M') break;
} while (1);
}
BIM_ACTION(handle_mouse_sgr, 0,
"Process SGR-style mouse actions."
,void) {
int values[3] = {0};
char tmp[512] = {0};
char * c = tmp;
int buttons = 0;
do {
int _c = bim_getch();
if (_c == -1) {
break;
}
if (_c == 'm') {
buttons = 3;
break;
} else if (_c == 'M') {
buttons = 0;
break;
}
*c = _c;
++c;
} while (1);
char * j = tmp;
char * last = tmp;
int i = 0;
while (*j) {
if (*j == ';') {
*j = '\0';
values[i] = atoi(last);
last = j+1;
i++;
if (i == 3) break;
}
j++;
}
if (last && i < 3) values[i] = atoi(last);
if (buttons != 3) {
buttons = values[0];
}
int x = values[1];
int y = values[2];
handle_common_mouse(buttons, x, y);
}
BIM_ACTION(insert_char, ARG_IS_INPUT | ACTION_IS_RW,
"Insert one character."
,unsigned int c) {
if (!c) {
render_error("Inserted nil byte?");
return;
}
char_t _c;
_c.codepoint = c;
_c.flags = 0;
_c.display_width = codepoint_width(c);
line_t * line = env->lines[env->line_no - 1];
line_t * nline = line_insert(line, _c, env->col_no - 1, env->line_no - 1);
if (line != nline) {
env->lines[env->line_no - 1] = nline;
}
env->col_no += 1;
set_preferred_column();
set_modified();
}
BIM_ACTION(replace_char, ARG_IS_PROMPT | ACTION_IS_RW,
"Replace a single character."
,unsigned int c) {
if (env->col_no < 1 || env->col_no > env->lines[env->line_no-1]->actual) return;
if (c >= KEY_ESCAPE) {
render_error("Invalid key for replacement");
return;
}
char_t _c;
_c.codepoint = c;
_c.flags = 0;
_c.display_width = codepoint_width(c);
line_replace(env->lines[env->line_no-1], _c, env->col_no-1, env->line_no-1);
redraw_line(env->line_no-1);
set_modified();
}
BIM_ACTION(undo_history, ACTION_IS_RW,
"Undo history until the last breakpoint."
,void) {
if (!global_config.history_enabled) return;
env->loading = 1;
history_t * e = env->history;
if (e->type == HISTORY_SENTINEL) {
env->loading = 0;
render_commandline_message("Already at oldest change");
return;
}
int count_chars = 0;
int count_lines = 0;
do {
if (e->type == HISTORY_SENTINEL) break;
switch (e->type) {
case HISTORY_INSERT:
/* Delete */
line_delete(
env->lines[e->contents.insert_delete_replace.lineno],
e->contents.insert_delete_replace.offset+1,
e->contents.insert_delete_replace.lineno
);
count_chars++;
break;
case HISTORY_DELETE:
{
char_t _c = {codepoint_width(e->contents.insert_delete_replace.old_codepoint),0,e->contents.insert_delete_replace.old_codepoint};
env->lines[e->contents.insert_delete_replace.lineno] = line_insert(
env->lines[e->contents.insert_delete_replace.lineno],
_c,
e->contents.insert_delete_replace.offset-1,
e->contents.insert_delete_replace.lineno
);
}
count_chars++;
break;
case HISTORY_REPLACE:
{
char_t _o = {codepoint_width(e->contents.insert_delete_replace.old_codepoint),0,e->contents.insert_delete_replace.old_codepoint};
line_replace(
env->lines[e->contents.insert_delete_replace.lineno],
_o,
e->contents.insert_delete_replace.offset,
e->contents.insert_delete_replace.lineno
);
}
count_chars++;
break;
case HISTORY_REMOVE_LINE:
env->lines = add_line(env->lines, e->contents.remove_replace_line.lineno);
replace_line(env->lines, e->contents.remove_replace_line.lineno, e->contents.remove_replace_line.old_contents);
count_lines++;
break;
case HISTORY_ADD_LINE:
env->lines = remove_line(env->lines, e->contents.add_merge_split_lines.lineno);
count_lines++;
break;
case HISTORY_REPLACE_LINE:
replace_line(env->lines, e->contents.remove_replace_line.lineno, e->contents.remove_replace_line.old_contents);
count_lines++;
break;
case HISTORY_SPLIT_LINE:
env->lines = merge_lines(env->lines, e->contents.add_merge_split_lines.lineno+1);
count_lines++;
break;
case HISTORY_MERGE_LINES:
env->lines = split_line(env->lines, e->contents.add_merge_split_lines.lineno-1, e->contents.add_merge_split_lines.split);
count_lines++;
break;
case HISTORY_BREAK:
/* Ignore break */
break;
default:
render_error("Unknown type %d!\n", e->type);
break;
}
env->line_no = env->history->line;
env->col_no = env->history->col;
env->history = e->previous;
e = env->history;
} while (e->type != HISTORY_BREAK);
if (env->line_no > env->line_count) env->line_no = env->line_count;
if (env->line_no < 1) env->line_no = 1;
if (env->col_no > env->lines[env->line_no-1]->actual) env->col_no = env->lines[env->line_no-1]->actual;
if (env->col_no < 1) env->col_no = 1;
env->modified = (env->history != env->last_save_history);
env->loading = 0;
for (int i = 0; i < env->line_count; ++i) {
env->lines[i]->istate = 0;
recalculate_tabs(env->lines[i]);
}
schedule_complete_recalc();
place_cursor_actual();
update_title();
redraw_all();
render_commandline_message("%d character%s, %d line%s changed",
count_chars, (count_chars == 1) ? "" : "s",
count_lines, (count_lines == 1) ? "" : "s");
}
BIM_ACTION(redo_history, ACTION_IS_RW,
"Redo history until the next breakpoint."
,void) {
if (!global_config.history_enabled) return;
env->loading = 1;
history_t * e = env->history->next;
if (!e) {
env->loading = 0;
render_commandline_message("Already at newest change");
return;
}
int count_chars = 0;
int count_lines = 0;
while (e) {
if (e->type == HISTORY_BREAK) {
env->history = e;
break;
}
switch (e->type) {
case HISTORY_INSERT:
{
char_t _c = {codepoint_width(e->contents.insert_delete_replace.codepoint),0,e->contents.insert_delete_replace.codepoint};
env->lines[e->contents.insert_delete_replace.lineno] = line_insert(
env->lines[e->contents.insert_delete_replace.lineno],
_c,
e->contents.insert_delete_replace.offset,
e->contents.insert_delete_replace.lineno
);
}
count_chars++;
break;
case HISTORY_DELETE:
/* Delete */
line_delete(
env->lines[e->contents.insert_delete_replace.lineno],
e->contents.insert_delete_replace.offset,
e->contents.insert_delete_replace.lineno
);
count_chars++;
break;
case HISTORY_REPLACE:
{
char_t _o = {codepoint_width(e->contents.insert_delete_replace.codepoint),0,e->contents.insert_delete_replace.codepoint};
line_replace(
env->lines[e->contents.insert_delete_replace.lineno],
_o,
e->contents.insert_delete_replace.offset,
e->contents.insert_delete_replace.lineno
);
}
count_chars++;
break;
case HISTORY_ADD_LINE:
env->lines = add_line(env->lines, e->contents.remove_replace_line.lineno);
count_lines++;
break;
case HISTORY_REMOVE_LINE:
env->lines = remove_line(env->lines, e->contents.remove_replace_line.lineno);
count_lines++;
break;
case HISTORY_REPLACE_LINE:
replace_line(env->lines, e->contents.remove_replace_line.lineno, e->contents.remove_replace_line.contents);
count_lines++;
break;
case HISTORY_MERGE_LINES:
env->lines = merge_lines(env->lines, e->contents.add_merge_split_lines.lineno);
count_lines++;
break;
case HISTORY_SPLIT_LINE:
env->lines = split_line(env->lines, e->contents.add_merge_split_lines.lineno, e->contents.add_merge_split_lines.split);
count_lines++;
break;
case HISTORY_BREAK:
/* Ignore break */
break;
default:
render_error("Unknown type %d!\n", e->type);
break;
}
env->history = e;
e = e->next;
}
env->line_no = env->history->line;
env->col_no = env->history->col;
if (env->line_no > env->line_count) env->line_no = env->line_count;
if (env->line_no < 1) env->line_no = 1;
if (env->col_no > env->lines[env->line_no-1]->actual) env->col_no = env->lines[env->line_no-1]->actual;
if (env->col_no < 1) env->col_no = 1;
env->modified = (env->history != env->last_save_history);
env->loading = 0;
for (int i = 0; i < env->line_count; ++i) {
env->lines[i]->istate = 0;
recalculate_tabs(env->lines[i]);
}
schedule_complete_recalc();
place_cursor_actual();
update_title();
redraw_all();
render_commandline_message("%d character%s, %d line%s changed",
count_chars, (count_chars == 1) ? "" : "s",
count_lines, (count_lines == 1) ? "" : "s");
}
int is_whitespace(int codepoint) {
return codepoint == ' ' || codepoint == '\t';
}
int is_normal(int codepoint) {
return isalnum(codepoint) || codepoint == '_';
}
int is_special(int codepoint) {
return !is_normal(codepoint) && !is_whitespace(codepoint);
}
BIM_ACTION(word_left, 0,
"Move the cursor left to the previous word."
,void) {
if (!env->lines[env->line_no-1]) return;
while (env->col_no > 1 && is_whitespace(env->lines[env->line_no - 1]->text[env->col_no - 2].codepoint)) {
env->col_no -= 1;
}
if (env->col_no == 1) {
if (env->line_no == 1) goto _place;
env->line_no--;
env->col_no = env->lines[env->line_no-1]->actual;
goto _place;
}
int (*inverse_comparator)(int) = is_special;
if (env->col_no > 1 && is_special(env->lines[env->line_no - 1]->text[env->col_no - 2].codepoint)) {
inverse_comparator = is_normal;
}
do {
if (env->col_no > 1) {
env->col_no -= 1;
}
} while (env->col_no > 1 && !is_whitespace(env->lines[env->line_no - 1]->text[env->col_no - 2].codepoint) && !inverse_comparator(env->lines[env->line_no - 1]->text[env->col_no - 2].codepoint));
_place:
set_preferred_column();
place_cursor_actual();
}
BIM_ACTION(big_word_left, 0,
"Move the cursor left to the previous WORD."
,void) {
int line_no = env->line_no;
int col_no = env->col_no;
do {
col_no--;
while (col_no == 0) {
line_no--;
if (line_no == 0) {
goto_line(1);
set_preferred_column();
return;
}
col_no = env->lines[line_no-1]->actual;
}
} while (isspace(env->lines[line_no-1]->text[col_no-1].codepoint));
do {
col_no--;
if (col_no == 0) {
env->col_no = 1;
env->line_no = line_no;
set_preferred_column();
redraw_statusbar();
place_cursor_actual();
return;
}
} while (!isspace(env->lines[line_no-1]->text[col_no-1].codepoint));
env->col_no = col_no;
env->line_no = line_no;
set_preferred_column();
cursor_right();
}
BIM_ACTION(word_right, 0,
"Move the cursor right to the start of the next word."
,void) {
if (!env->lines[env->line_no-1]) return;
if (env->col_no >= env->lines[env->line_no-1]->actual) {
/* next line */
if (env->line_no == env->line_count) return;
env->line_no++;
env->col_no = 0;
if (env->col_no >= env->lines[env->line_no-1]->actual) {
goto _place;
}
}
if (env->col_no < env->lines[env->line_no-1]->actual && is_whitespace(env->lines[env->line_no-1]->text[env->col_no - 1].codepoint)) {
while (env->col_no < env->lines[env->line_no-1]->actual && is_whitespace(env->lines[env->line_no-1]->text[env->col_no - 1].codepoint)) {
env->col_no++;
}
goto _place;
}
int (*inverse_comparator)(int) = is_special;
if (is_special(env->lines[env->line_no - 1]->text[env->col_no - 1].codepoint)) {
inverse_comparator = is_normal;
}
while (env->col_no < env->lines[env->line_no-1]->actual && !is_whitespace(env->lines[env->line_no - 1]->text[env->col_no - 1].codepoint) && !inverse_comparator(env->lines[env->line_no - 1]->text[env->col_no - 1].codepoint)) {
env->col_no++;
}
while (env->col_no < env->lines[env->line_no-1]->actual && is_whitespace(env->lines[env->line_no - 1]->text[env->col_no - 1].codepoint)) {
env->col_no++;
}
_place:
set_preferred_column();
place_cursor_actual();
}
BIM_ACTION(big_word_right, 0,
"Move the cursor right to the start of the next WORD."
,void) {
int line_no = env->line_no;
int col_no = env->col_no;
do {
col_no++;
if (col_no > env->lines[line_no-1]->actual) {
line_no++;
if (line_no > env->line_count) {
env->line_no = env->line_count;
env->col_no = env->lines[env->line_no-1]->actual;
set_preferred_column();
redraw_statusbar();
place_cursor_actual();
return;
}
col_no = 0;
break;
}
} while (!isspace(env->lines[line_no-1]->text[col_no-1].codepoint));
do {
col_no++;
while (col_no > env->lines[line_no-1]->actual) {
line_no++;
if (line_no >= env->line_count) {
env->col_no = env->lines[env->line_count-1]->actual;
env->line_no = env->line_count;
set_preferred_column();
redraw_statusbar();
place_cursor_actual();
return;
}
col_no = 1;
}
} while (isspace(env->lines[line_no-1]->text[col_no-1].codepoint));
env->col_no = col_no;
env->line_no = line_no;
set_preferred_column();
redraw_statusbar();
place_cursor_actual();
return;
}
BIM_ACTION(delete_at_cursor, ACTION_IS_RW,
"Delete the character at the cursor, or merge with previous line."
,void) {
if (env->col_no > 1) {
line_delete(env->lines[env->line_no - 1], env->col_no - 1, env->line_no - 1);
env->col_no -= 1;
if (env->coffset > 0) env->coffset--;
redraw_line(env->line_no-1);
set_modified();
redraw_statusbar();
place_cursor_actual();
} else if (env->line_no > 1) {
int tmp = env->lines[env->line_no - 2]->actual;
merge_lines(env->lines, env->line_no - 1);
env->line_no -= 1;
env->col_no = tmp+1;
set_preferred_column();
redraw_text();
set_modified();
redraw_statusbar();
place_cursor_actual();
}
}
BIM_ACTION(delete_word, ACTION_IS_RW,
"Delete the previous word."
,void) {
if (!env->lines[env->line_no-1]) return;
if (env->col_no > 1) {
/* Start by deleting whitespace */
while (env->col_no > 1 && is_whitespace(env->lines[env->line_no - 1]->text[env->col_no - 2].codepoint)) {
line_delete(env->lines[env->line_no - 1], env->col_no - 1, env->line_no - 1);
env->col_no -= 1;
if (env->coffset > 0) env->coffset--;
}
int (*inverse_comparator)(int) = is_special;
if (env->col_no > 1 && is_special(env->lines[env->line_no - 1]->text[env->col_no - 2].codepoint)) {
inverse_comparator = is_normal;
}
do {
if (env->col_no > 1) {
line_delete(env->lines[env->line_no - 1], env->col_no - 1, env->line_no - 1);
env->col_no -= 1;
if (env->coffset > 0) env->coffset--;
}
} while (env->col_no > 1 && !is_whitespace(env->lines[env->line_no - 1]->text[env->col_no - 2].codepoint) && !inverse_comparator(env->lines[env->line_no - 1]->text[env->col_no - 2].codepoint));
set_preferred_column();
redraw_text();
set_modified();
redraw_statusbar();
place_cursor_actual();
}
}
BIM_ACTION(insert_line_feed, ACTION_IS_RW,
"Insert a line break, splitting the current line into two."
,void) {
if (env->indent) {
if ((env->lines[env->line_no-1]->text[env->col_no-2].flags & 0x1F) == FLAG_COMMENT &&
(env->lines[env->line_no-1]->text[env->col_no-2].codepoint == ' ') &&
(env->col_no > 3) &&
(env->lines[env->line_no-1]->text[env->col_no-3].codepoint == '*')) {
delete_at_cursor();
}
}
if (env->col_no == env->lines[env->line_no - 1]->actual + 1) {
env->lines = add_line(env->lines, env->line_no);
} else {
env->lines = split_line(env->lines, env->line_no-1, env->col_no - 1);
}
unhighlight_matching_paren();
env->coffset = 0;
env->col_no = 1;
env->line_no += 1;
set_preferred_column();
add_indent(env->line_no-1,env->line_no-2,0);
if (env->line_no > env->offset + global_config.term_height - global_config.bottom_size - 1) {
env->offset += 1;
}
if (env->highlighting_paren && env->highlighting_paren > env->line_no) env->highlighting_paren++;
set_modified();
}
BIM_ACTION(yank_lines, 0,
"Copy lines into the paste buffer."
,void) {
int start = env->start_line;
int end = env->line_no;
if (global_config.yanks) {
for (unsigned int i = 0; i < global_config.yank_count; ++i) {
free(global_config.yanks[i]);
}
free(global_config.yanks);
}
int lines_to_yank;
int start_point;
if (start <= end) {
lines_to_yank = end - start + 1;
start_point = start - 1;
} else {
lines_to_yank = start - end + 1;
start_point = end - 1;
}
global_config.yanks = malloc(sizeof(line_t *) * lines_to_yank);
global_config.yank_count = lines_to_yank;
global_config.yank_is_full_lines = 1;
for (int i = 0; i < lines_to_yank; ++i) {
global_config.yanks[i] = malloc(sizeof(line_t) + sizeof(char_t) * (env->lines[start_point+i]->available));
global_config.yanks[i]->available = env->lines[start_point+i]->available;
global_config.yanks[i]->actual = env->lines[start_point+i]->actual;
global_config.yanks[i]->istate = 0;
memcpy(&global_config.yanks[i]->text, &env->lines[start_point+i]->text, sizeof(char_t) * (env->lines[start_point+i]->actual));
for (int j = 0; j < global_config.yanks[i]->actual; ++j) {
global_config.yanks[i]->text[j].flags = 0;
}
}
}
/**
* Helper to yank part of a line into a new yank line.
*/
void yank_partial_line(int yank_no, int line_no, int start_off, int count) {
if (start_off + count > env->lines[line_no]->actual) {
if (start_off >= env->lines[line_no]->actual) {
start_off = env->lines[line_no]->actual;
count = 0;
} else {
count = env->lines[line_no]->actual - start_off;
}
}
global_config.yanks[yank_no] = malloc(sizeof(line_t) + sizeof(char_t) * (count + 1));
global_config.yanks[yank_no]->available = count + 1; /* ensure extra space */
global_config.yanks[yank_no]->actual = count;
global_config.yanks[yank_no]->istate = 0;
memcpy(&global_config.yanks[yank_no]->text, &env->lines[line_no]->text[start_off], sizeof(char_t) * count);
for (int i = 0; i < count; ++i) {
global_config.yanks[yank_no]->text[i].flags = 0;
}
}
/**
* Yank text...
*/
void yank_text(int start_line, int start_col, int end_line, int end_col) {
if (global_config.yanks) {
for (unsigned int i = 0; i < global_config.yank_count; ++i) {
free(global_config.yanks[i]);
}
free(global_config.yanks);
}
int lines_to_yank = end_line - start_line + 1;
int start_point = start_line - 1;
global_config.yanks = malloc(sizeof(line_t *) * lines_to_yank);
global_config.yank_count = lines_to_yank;
global_config.yank_is_full_lines = 0;
if (lines_to_yank == 1) {
yank_partial_line(0, start_point, start_col - 1, (end_col - start_col + 1));
} else {
yank_partial_line(0, start_point, start_col - 1, (env->lines[start_point]->actual - start_col + 1));
/* Yank middle lines */
for (int i = 1; i < lines_to_yank - 1; ++i) {
global_config.yanks[i] = malloc(sizeof(line_t) + sizeof(char_t) * (env->lines[start_point+i]->available));
global_config.yanks[i]->available = env->lines[start_point+i]->available;
global_config.yanks[i]->actual = env->lines[start_point+i]->actual;
global_config.yanks[i]->istate = 0;
memcpy(&global_config.yanks[i]->text, &env->lines[start_point+i]->text, sizeof(char_t) * (env->lines[start_point+i]->actual));
for (int j = 0; j < global_config.yanks[i]->actual; ++j) {
global_config.yanks[i]->text[j].flags = 0;
}
}
/* Yank end line */
yank_partial_line(lines_to_yank-1, end_line - 1, 0, end_col);
}
}
BIM_ACTION(delete_at_column, ARG_IS_CUSTOM | ACTION_IS_RW,
"Delete from the current column backwards (`<backspace>`) or forwards (`<del>`)."
,int direction) {
if (direction == -1 && env->sel_col <= 0) return;
int prev_width = 0;
int s = (env->line_no < env->start_line) ? env->line_no : env->start_line;
int e = (env->line_no < env->start_line) ? env->start_line : env->line_no;
for (int i = s; i <= e; i++) {
line_t * line = env->lines[i - 1];
int _x = 0;
int col = 1;
int j = 0;
for (; j < line->actual; ++j) {
char_t * c = &line->text[j];
_x += c->display_width;
col = j+1;
if (_x > env->sel_col) break;
prev_width = c->display_width;
}
if ((direction == -1) && (_x == env->sel_col && j == line->actual)) {
line_delete(line, line->actual, i - 1);
set_modified();
} else if (_x > env->sel_col) {
line_delete(line, col - (direction == -1 ? 1 : 0), i - 1);
set_modified();
}
}
if (direction == -1) {
env->sel_col -= prev_width;
env->col_no--;
}
redraw_text();
}
void realign_column_cursor(void) {
line_t * line = env->lines[env->line_no - 1];
int _x = 0, col = 1, j = 0;
for (; j < line->actual; ++j) {
char_t * c = &line->text[j];
_x += c->display_width;
col = j + 1;
if (_x > env->sel_col) break;
}
env->col_no = col;
}
BIM_ACTION(column_left, 0, "Move the column cursor left.",void) {
if (env->sel_col > 0) {
env->sel_col -= 1;
env->preferred_column = env->sel_col;
/* Figure out where the cursor should be */
realign_column_cursor();
redraw_all();
}
}
BIM_ACTION(column_right, 0, "Move the column cursor right.",void) {
env->sel_col += 1;
env->preferred_column = env->sel_col;
/* Figure out where the cursor should be */
realign_column_cursor();
redraw_all();
}
BIM_ACTION(column_up, 0, "Move the column cursor up.",void) {
if (env->line_no > 1 && env->start_line > 1) {
env->line_no--;
env->start_line--;
/* Figure out where the cursor should be */
realign_column_cursor();
place_cursor_actual();
redraw_all();
}
}
BIM_ACTION(column_down, 0, "Move the column cursor down.",void) {
if (env->line_no < env->line_count && env->start_line < env->line_count) {
env->line_no++;
env->start_line++;
/* Figure out where the cursor should be */
realign_column_cursor();
place_cursor_actual();
redraw_all();
}
}
uint32_t * get_word_under_cursor(void) {
/* Figure out size */
int c_before = 0;
int c_after = 0;
int i = env->col_no;
while (i > 0) {
if (!simple_keyword_qualifier(env->lines[env->line_no-1]->text[i-1].codepoint)) break;
c_before++;
i--;
}
i = env->col_no+1;
while (i < env->lines[env->line_no-1]->actual+1) {
if (!simple_keyword_qualifier(env->lines[env->line_no-1]->text[i-1].codepoint)) break;
c_after++;
i++;
}
if (!c_before && !c_after) return NULL;
/* Populate with characters */
uint32_t * out = malloc(sizeof(uint32_t) * (c_before+c_after+1));
int j = 0;
while (c_before) {
out[j] = env->lines[env->line_no-1]->text[env->col_no-c_before].codepoint;
c_before--;
j++;
}
int x = 0;
while (c_after) {
out[j] = env->lines[env->line_no-1]->text[env->col_no+x].codepoint;
j++;
x++;
c_after--;
}
out[j] = 0;
return out;
}
BIM_ACTION(search_under_cursor, 0,
"Search for the word currently under the cursor."
,void) {
if (global_config.search) free(global_config.search);
global_config.search = get_word_under_cursor();
/* Find it */
search_next();
}
BIM_ACTION(find_character_forward, ARG_IS_PROMPT | ARG_IS_INPUT,
"Find a character forward on the current line and place the cursor on (`f`) or before (`t`) it."
,int type, int c) {
for (int i = env->col_no+1; i <= env->lines[env->line_no-1]->actual; ++i) {
if (env->lines[env->line_no-1]->text[i-1].codepoint == c) {
env->col_no = i - !!(type == 't');
place_cursor_actual();
set_preferred_column();
return;
}
}
}
BIM_ACTION(find_character_backward, ARG_IS_PROMPT | ARG_IS_INPUT,
"Find a character backward on the current line and place the cursor on (`F`) or after (`T`) it."
,int type, int c) {
for (int i = env->col_no-1; i >= 1; --i) {
if (env->lines[env->line_no-1]->text[i-1].codepoint == c) {
env->col_no = i + !!(type == 'T');
place_cursor_actual();
set_preferred_column();
return;
}
}
}
/**
* Clear the navigation number buffer
*/
void reset_nav_buffer(int c) {
if (c == KEY_TIMEOUT) return;
if (nav_buffer && (c < '0' || c > '9')) {
nav_buffer = 0;
redraw_commandline();
}
}
/**
* Determine if a column + line number are within range of the
* current character selection specified by start_line, etc.
*
* Used to determine how syntax flags should be set when redrawing
* selected text in CHAR SELECTION mode.
*/
int point_in_range(int start_line, int end_line, int start_col, int end_col, int line, int col) {
if (start_line == end_line) {
if ( end_col < start_col) {
int tmp = end_col;
end_col = start_col;
start_col = tmp;
}
return (col >= start_col && col <= end_col);
}
if (start_line > end_line) {
int tmp = end_line;
end_line = start_line;
start_line = tmp;
tmp = end_col;
end_col = start_col;
start_col = tmp;
}
if (line < start_line || line > end_line) return 0;
if (line == start_line) {
return col >= start_col;
}
if (line == end_line) {
return col <= end_col;
}
return 1;
}
/**
* Macro for redrawing selected lines with appropriate highlighting.
*/
#define _redraw_line(line, force_start_line) \
do { \
if (!(force_start_line) && (line) == env->start_line) break; \
if ((line) > env->line_count + 1) { \
if ((line) - env->offset - 1 < global_config.term_height - global_config.bottom_size - 1) { \
draw_excess_line((line) - env->offset - 1); \
} \
break; \
} \
if ((env->line_no < env->start_line && ((line) < env->line_no || (line) > env->start_line)) || \
(env->line_no > env->start_line && ((line) > env->line_no || (line) < env->start_line)) || \
(env->line_no == env->start_line && (line) != env->start_line)) { \
for (int j = 0; j < env->lines[(line)-1]->actual; ++j) { \
env->lines[(line)-1]->text[j].flags &= ~(FLAG_SELECT); \
} \
} else { \
for (int j = 0; j < env->lines[(line)-1]->actual; ++j) { \
env->lines[(line)-1]->text[j].flags |= FLAG_SELECT; \
} \
} \
redraw_line((line)-1); \
} while (0)
#define _redraw_line_char(line, force_start_line) \
do { \
if (!(force_start_line) && (line) == env->start_line) break; \
if ((line) > env->line_count + 1) { \
if ((line) - env->offset - 1 < global_config.term_height - global_config.bottom_size - 1) { \
draw_excess_line((line) - env->offset - 1); \
} \
break; \
} \
if ((env->line_no < env->start_line && ((line) < env->line_no || (line) > env->start_line)) || \
(env->line_no > env->start_line && ((line) > env->line_no || (line) < env->start_line)) || \
(env->line_no == env->start_line && (line) != env->start_line)) { \
/* Line is completely outside selection */ \
for (int j = 0; j < env->lines[(line)-1]->actual; ++j) { \
env->lines[(line)-1]->text[j].flags &= ~(FLAG_SELECT); \
} \
} else { \
if ((line) == env->start_line || (line) == env->line_no) { \
for (int j = 0; j < env->lines[(line)-1]->actual; ++j) { \
env->lines[(line)-1]->text[j].flags &= ~(FLAG_SELECT); \
} \
} \
for (int j = 0; j < env->lines[(line)-1]->actual; ++j) { \
if (point_in_range(env->start_line, env->line_no,env->start_col, env->col_no, (line), j+1)) { \
env->lines[(line)-1]->text[j].flags |= FLAG_SELECT; \
} \
} \
} \
redraw_line((line)-1); \
} while (0)
#define _redraw_line_col(line, force_start_line) \
do {\
if (!(force_start_line) && (line) == env->start_line) break; \
if ((line) > env->line_count + 1) { \
if ((line) - env->offset - 1 < global_config.term_height - global_config.bottom_size - 1) { \
draw_excess_line((line) - env->offset - 1); \
} \
break; \
} \
redraw_line((line)-1); \
} while (0)
BIM_ACTION(adjust_indent, ARG_IS_CUSTOM | ACTION_IS_RW,
"Adjust the indentation on the selected lines (`<tab>` for deeper, `<shift-tab>` for shallower)."
,int direction) {
int lines_to_cover = 0;
int start_point = 0;
if (env->start_line <= env->line_no) {
start_point = env->start_line - 1;
lines_to_cover = env->line_no - env->start_line + 1;
} else {
start_point = env->line_no - 1;
lines_to_cover = env->start_line - env->line_no + 1;
}
for (int i = 0; i < lines_to_cover; ++i) {
if (env->lines[start_point + i]->actual < 1) continue;
if (direction == -1) {
if (env->tabs) {
if (env->lines[start_point + i]->text[0].codepoint == '\t') {
line_delete(env->lines[start_point + i],1,start_point+i);
_redraw_line(start_point+i+1,1);
}
} else {
if (env->lines[start_point + i]->text[0].codepoint == '\t') {
line_delete(env->lines[start_point + i],1,start_point+i);
_redraw_line(start_point+i+1,1);
} else {
for (int j = 0; j < env->tabstop; ++j) {
if (env->lines[start_point + i]->text[0].codepoint == ' ') {
line_delete(env->lines[start_point + i],1,start_point+i);
}
}
}
_redraw_line(start_point+i+1,1);
}
} else if (direction == 1) {
if (env->tabs) {
char_t c;
c.codepoint = '\t';
c.display_width = env->tabstop;
c.flags = FLAG_SELECT;
env->lines[start_point + i] = line_insert(env->lines[start_point + i], c, 0, start_point + i);
} else {
for (int j = 0; j < env->tabstop; ++j) {
char_t c;
c.codepoint = ' ';
c.display_width = 1;
c.flags = FLAG_SELECT;
env->lines[start_point + i] = line_insert(env->lines[start_point + i], c, 0, start_point + i);
}
}
_redraw_line(start_point+i+1,1);
}
}
if (env->col_no > env->lines[env->line_no-1]->actual) {
env->col_no = env->lines[env->line_no-1]->actual;
}
set_preferred_column();
set_modified();
}
void recalculate_selected_lines(void) {
int start = env->line_no < env->start_line ? env->line_no : env->start_line;
int end = env->line_no > env->start_line ? env->line_no : env->start_line;
if (start < 1) start = 1;
if (start > env->line_count) start = env->line_count;
if (end < 1) end = 1;
if (end > env->line_count) end = env->line_count;
for (int i = (start > 1) ? (start-1) : (start); i <= end; ++i) {
for (int j = 0; j < env->lines[i-1]->actual; j++) {
env->lines[i-1]->text[j].flags &= ~(FLAG_SELECT);
}
}
redraw_all();
}
BIM_ACTION(enter_line_selection, 0,
"Enter line selection mode."
,void) {
/* Set mode */
env->mode = MODE_LINE_SELECTION;
/* Store start position */
env->start_line = env->line_no;
env->prev_line = env->start_line;
env->start_col = env->col_no;
/* Redraw commandline to get -- LINE SELECTION -- text */
redraw_commandline();
unhighlight_matching_paren();
/* Set this line as selected for syntax highlighting */
for (int j = 0; j < env->lines[env->line_no-1]->actual; ++j) {
env->lines[env->line_no-1]->text[j].flags |= FLAG_SELECT;
}
/* And redraw it */
redraw_line(env->line_no-1);
}
BIM_ACTION(switch_selection_mode, ARG_IS_CUSTOM,
"Swap between LINE and CHAR selection modes."
,int mode) {
env->mode = mode;
if (mode == MODE_LINE_SELECTION) {
int start = env->line_no < env->start_line ? env->line_no : env->start_line;
int end = env->line_no > env->start_line ? env->line_no : env->start_line;
for (int i = start; i <= end; ++i) {
_redraw_line(i, 1);
}
} else if (mode == MODE_CHAR_SELECTION) {
int start = env->line_no < env->start_line ? env->line_no : env->start_line;
int end = env->line_no > env->start_line ? env->line_no : env->start_line;
for (int i = start; i <= end; ++i) {
_redraw_line_char(i, 1);
}
}
}
BIM_ACTION(delete_and_yank_lines, 0,
"Delete and yank the selected lines."
,void) {
yank_lines();
if (env->start_line <= env->line_no) {
int lines_to_delete = env->line_no - env->start_line + 1;
for (int i = 0; i < lines_to_delete; ++i) {
env->lines = remove_line(env->lines, env->start_line-1);
}
env->line_no = env->start_line;
} else {
int lines_to_delete = env->start_line - env->line_no + 1;
for (int i = 0; i < lines_to_delete; ++i) {
env->lines = remove_line(env->lines, env->line_no-1);
}
}
if (env->line_no > env->line_count) {
env->line_no = env->line_count;
}
if (env->col_no > env->lines[env->line_no-1]->actual) {
env->col_no = env->lines[env->line_no-1]->actual;
}
set_preferred_column();
set_modified();
}
BIM_ACTION(enter_insert, ACTION_IS_RW,
"Enter insert mode."
,void) {
env->mode = MODE_INSERT;
set_history_break();
}
BIM_ACTION(delete_lines_and_enter_insert, ACTION_IS_RW,
"Delete and yank the selected lines and then enter insert mode."
,void) {
delete_and_yank_lines();
env->lines = add_line(env->lines, env->line_no-1);
redraw_text();
env->mode = MODE_INSERT;
}
BIM_ACTION(replace_chars_in_line, ARG_IS_PROMPT | ACTION_IS_RW,
"Replace characters in the selected lines."
,int c) {
if (c >= KEY_ESCAPE) {
render_error("Invalid key for replacement");
return;
}
char_t _c = {codepoint_width(c), 0, c};
int start_point = env->start_line < env->line_no ? env->start_line : env->line_no;
int end_point = env->start_line < env->line_no ? env->line_no : env->start_line;
for (int line = start_point; line <= end_point; ++line) {
for (int i = 0; i < env->lines[line-1]->actual; ++i) {
line_replace(env->lines[line-1], _c, i, line-1);
}
}
}
BIM_ACTION(leave_selection, 0,
"Leave selection modes and return to normal mode."
,void) {
set_history_break();
env->mode = MODE_NORMAL;
recalculate_selected_lines();
}
BIM_ACTION(insert_char_at_column, ARG_IS_INPUT | ACTION_IS_RW,
"Insert a character on all lines at the current column."
,int c) {
char_t _c;
_c.codepoint = c;
_c.flags = 0;
_c.display_width = codepoint_width(c);
int inserted_width = 0;
/* For each line */
int s = (env->line_no < env->start_line) ? env->line_no : env->start_line;
int e = (env->line_no < env->start_line) ? env->start_line : env->line_no;
for (int i = s; i <= e; i++) {
line_t * line = env->lines[i - 1];
int _x = 0;
int col = 1;
int j = 0;
for (; j < line->actual; ++j) {
char_t * c = &line->text[j];
_x += c->display_width;
col = j+1;
if (_x > env->sel_col) break;
}
if ((_x == env->sel_col && j == line->actual)) {
_x = env->sel_col + 1;
col = line->actual + 1;
}
if (_x > env->sel_col) {
line_t * nline = line_insert(line, _c, col - 1, i - 1);
if (line != nline) {
env->lines[i - 1] = nline;
line = nline;
}
set_modified();
}
recalculate_tabs(line);
inserted_width = line->text[col-1].display_width;
if (i == env->line_no) env->col_no = col + 1;
}
env->sel_col += inserted_width;
env->preferred_column = env->sel_col;
place_cursor_actual();
}
BIM_ACTION(insert_tab_at_column, ACTION_IS_RW,
"Insert an indentation character on multiple lines."
,void) {
if (env->tabs) {
insert_char_at_column('\t');
} else {
for (int i = 0; i < env->tabstop; ++i) {
insert_char_at_column(' ');
}
}
}
BIM_ACTION(enter_col_insert, ACTION_IS_RW,
"Enter column insert mode."
,void) {
env->mode = MODE_COL_INSERT;
}
BIM_ACTION(enter_col_insert_after, ACTION_IS_RW,
"Enter column insert mode after the selected column."
,void) {
env->sel_col += 1;
enter_col_insert();
}
BIM_ACTION(enter_col_selection, 0,
"Enter column selection mode."
,void) {
/* Set mode */
env->mode = MODE_COL_SELECTION;
/* Store cursor */
env->start_line = env->line_no;
env->sel_col = env->preferred_column;
env->prev_line = env->start_line;
/* Redraw commandline */
redraw_commandline();
/* Nothing else to do here; rely on cursor */
}
BIM_ACTION(yank_characters, 0,
"Yank the selected characters to the paste buffer."
,void) {
int end_line = env->line_no;
int end_col = env->col_no;
if (env->start_line == end_line) {
if (env->start_col > end_col) {
int tmp = env->start_col;
env->start_col = end_col;
end_col = tmp;
}
} else if (env->start_line > end_line) {
int tmp = env->start_line;
env->start_line = end_line;
end_line = tmp;
tmp = env->start_col;
env->start_col = end_col;
end_col = tmp;
}
yank_text(env->start_line, env->start_col, end_line, end_col);
}
BIM_ACTION(delete_and_yank_chars, ACTION_IS_RW,
"Delete and yank the selected characters."
,void) {
int end_line = env->line_no;
int end_col = env->col_no;
if (env->start_line == end_line) {
if (env->start_col > end_col) {
int tmp = env->start_col;
env->start_col = end_col;
end_col = tmp;
}
yank_text(env->start_line, env->start_col, end_line, end_col);
for (int i = env->start_col; i <= end_col; ++i) {
line_delete(env->lines[env->start_line-1], env->start_col, env->start_line - 1);
}
env->col_no = env->start_col;
} else {
if (env->start_line > end_line) {
int tmp = env->start_line;
env->start_line = end_line;
end_line = tmp;
tmp = env->start_col;
env->start_col = end_col;
end_col = tmp;
}
/* Copy lines */
yank_text(env->start_line, env->start_col, end_line, end_col);
/* Delete lines */
for (int i = env->start_line+1; i < end_line; ++i) {
env->lines = remove_line(env->lines, env->start_line);
} /* end_line is no longer valid; should be start_line+1*/
/* Delete from env->start_col forward */
int tmp = env->lines[env->start_line-1]->actual;
for (int i = env->start_col; i <= tmp; ++i) {
line_delete(env->lines[env->start_line-1], env->start_col, env->start_line - 1);
}
for (int i = 1; i <= end_col; ++i) {
line_delete(env->lines[env->start_line], 1, env->start_line);
}
/* Merge start and end lines */
merge_lines(env->lines, env->start_line);
env->line_no = env->start_line;
env->col_no = env->start_col;
}
if (env->line_no > env->line_count) {
env->line_no = env->line_count;
}
set_preferred_column();
set_modified();
}
BIM_ACTION(delete_chars_and_enter_insert, ACTION_IS_RW,
"Delete and yank the selected characters and then enter insert mode."
,void) {
delete_and_yank_chars();
redraw_text();
enter_insert();
}
BIM_ACTION(replace_chars, ARG_IS_PROMPT | ACTION_IS_RW,
"Replace the selected characters."
,int c) {
if (c >= KEY_ESCAPE) {
render_error("Invalid key for replacement");
return;
}
char_t _c = {codepoint_width(c), 0, c};
/* This should probably be a function line "do_over_range" or something */
if (env->start_line == env->line_no) {
int s = (env->start_col < env->col_no) ? env->start_col : env->col_no;
int e = (env->start_col < env->col_no) ? env->col_no : env->start_col;
for (int i = s; i <= e; ++i) {
line_replace(env->lines[env->start_line-1], _c, i-1, env->start_line-1);
}
redraw_text();
} else {
if (env->start_line < env->line_no) {
for (int s = env->start_col-1; s < env->lines[env->start_line-1]->actual; ++s) {
line_replace(env->lines[env->start_line-1], _c, s, env->start_line-1);
}
for (int line = env->start_line + 1; line < env->line_no; ++line) {
for (int i = 0; i < env->lines[line-1]->actual; ++i) {
line_replace(env->lines[line-1], _c, i, line-1);
}
}
for (int s = 0; s < env->col_no; ++s) {
line_replace(env->lines[env->line_no-1], _c, s, env->line_no-1);
}
} else {
for (int s = env->col_no-1; s < env->lines[env->line_no-1]->actual; ++s) {
line_replace(env->lines[env->line_no-1], _c, s, env->line_no-1);
}
for (int line = env->line_no + 1; line < env->start_line; ++line) {
for (int i = 0; i < env->lines[line-1]->actual; ++i) {
line_replace(env->lines[line-1], _c, i, line-1);
}
}
for (int s = 0; s < env->start_col; ++s) {
line_replace(env->lines[env->start_line-1], _c, s, env->start_line-1);
}
}
}
}
BIM_ACTION(enter_char_selection, 0,
"Enter character selection mode."
,void) {
/* Set mode */
env->mode = MODE_CHAR_SELECTION;
/* Set cursor positions */
env->start_line = env->line_no;
env->start_col = env->col_no;
env->prev_line = env->start_line;
/* Redraw commandline for -- CHAR SELECTION -- */
redraw_commandline();
unhighlight_matching_paren();
/* Select single character */
env->lines[env->line_no-1]->text[env->col_no-1].flags |= FLAG_SELECT;
redraw_line(env->line_no-1);
}
BIM_ACTION(insert_at_end_of_selection, ACTION_IS_RW,
"Move the cursor to the end of the selection and enter insert mode."
,void) {
recalculate_selected_lines();
if (env->line_no == env->start_line) {
env->col_no = env->col_no > env->start_col ? env->col_no + 1 : env->start_col + 1;
} else if (env->line_no < env->start_line) {
env->col_no = env->start_col + 1;
env->line_no = env->start_line;
} else {
env->col_no += 1;
}
env->mode = MODE_INSERT;
}
void free_completion_match(struct completion_match * match) {
if (match->string) free(match->string);
if (match->file) free(match->file);
if (match->search) free(match->search);
}
/**
* Read ctags file to find matches for a symbol
*/
int read_tags(uint32_t * comp, struct completion_match **matches, int * matches_count, int complete_match) {
int _matches_len = 4;
int *matches_len = &_matches_len;
*matches_count = 0;
*matches = malloc(sizeof(struct completion_match) * (*matches_len));
FILE * tags = fopen("tags","r");
if (tags) {
char tmp[4096]; /* max line */
while (!feof(tags) && fgets(tmp, 4096, tags)) {
if (tmp[0] == '!') continue;
int i = 0;
while (comp[i] && comp[i] == (unsigned int)tmp[i]) i++;
if (comp[i] == '\0') {
if (complete_match && tmp[i] != '\t') continue;
int j = i;
while (tmp[j] != '\t' && tmp[j] != '\n' && tmp[j] != '\0') j++;
tmp[j] = '\0'; j++;
char * file = &tmp[j];
while (tmp[j] != '\t' && tmp[j] != '\n' && tmp[j] != '\0') j++;
tmp[j] = '\0'; j++;
char * search = &tmp[j];
while (!(tmp[j] == '/' && tmp[j+1] == ';' && tmp[j+2] == '"' && tmp[j+3] == '\t') /* /normal searches/ */
&& !(tmp[j] == ';' && tmp[j+1] == '"' && tmp[j+2] == '\t') /* Old ctags line number searches */
&& (tmp[j] != '\n' && tmp[j] != '\0')) j++;
tmp[j] = '\0'; j++;
add_match(tmp,file,search);
}
}
fclose(tags);
}
if (env->syntax && env->syntax->completion_matcher) {
env->syntax->completion_matcher(comp,matches,matches_count,complete_match,matches_len, env);
}
return 0;
}
/**
* Draw an autocomplete popover with matches.
*/
void draw_completion_matches(uint32_t * tmp, struct completion_match *matches, int matches_count, int index) {
int original_length = 0;
while (tmp[original_length]) original_length++;
int max_width = 0;
for (int i = 0; i < matches_count; ++i) {
/* TODO unicode width */
unsigned int my_width = strlen(matches[i].string) + (matches[i].file ? strlen(matches[i].file) + 1 : 0);
if (my_width > (unsigned int)max_width) {
max_width = my_width;
}
}
/* Figure out how much space we have to display the window */
int cursor_y = env->line_no - env->offset + global_config.tabs_visible;
int max_y = global_config.term_height - global_config.bottom_size - cursor_y;
/* Find a good place to put the box horizontally */
int num_size = num_width() + gutter_width();
int x = num_size + 1 - env->coffset;
/* Determine where the cursor is physically */
for (int i = 0; i < env->col_no - 1 - original_length; ++i) {
char_t * c = &env->lines[env->line_no-1]->text[i];
x += c->display_width;
}
int box_width = max_width;
int box_x = x;
int box_y = cursor_y + 1;
if (max_width > env->width - num_width() - gutter_width()) {
box_width = env->width - num_width() - gutter_width();
box_x = num_width() + gutter_width() + 1;
} else if (env->width - x < max_width) {
box_width = max_width;
box_x = env->width - max_width;
}
int max_count = (max_y < matches_count) ? max_y - 1 : matches_count;
for (int x = index; x < max_count+index; ++x) {
int i = x % matches_count;
place_cursor(box_x + env->left, box_y+x-index);
set_colors(COLOR_KEYWORD, COLOR_STATUS_BG);
/* TODO wide characters */
int match_width = strlen(matches[i].string);
int file_width = matches[i].file ? strlen(matches[i].file) : 0;
for (int j = 0; j < box_width; ++j) {
if (j == original_length) set_colors(i == index ? COLOR_NUMERAL : COLOR_STATUS_FG, COLOR_STATUS_BG);
if (j == match_width) set_colors(COLOR_TYPE, COLOR_STATUS_BG);
if (j < match_width) printf("%c", matches[i].string[j]);
else if (j > match_width && j - match_width - 1 < file_width) printf("%c", matches[i].file[j-match_width-1]);
else printf(" ");
}
}
if (max_count == 0) {
place_cursor(box_x + env->left, box_y);
set_colors(COLOR_STATUS_FG, COLOR_STATUS_BG);
printf(" (no matches) ");
} else if (max_count != matches_count) {
place_cursor(box_x + env->left, box_y+max_count);
set_colors(COLOR_STATUS_FG, COLOR_STATUS_BG);
printf(" (%d more) ", matches_count-max_count);
}
}
/**
* Autocomplete words (function/variable names, etc.) in input mode.
*/
int omni_complete(int quit_quietly_on_none) {
int retval = 0;
int index = 0;
int c;
int (*qualifier)(int c) = simple_keyword_qualifier;
if (env->syntax && env->syntax->completion_qualifier) {
qualifier = env->syntax->completion_qualifier;
}
/* Pull the word from before the cursor */
int c_before = 0;
int i = env->col_no-1;
while (i > 0) {
int c = env->lines[env->line_no-1]->text[i-1].codepoint;
if (!qualifier(c)) break;
c_before++;
i--;
}
if (!c_before && quit_quietly_on_none) return 0;
/* Populate with characters */
uint32_t * tmp = malloc(sizeof(uint32_t) * (c_before+1));
int j = 0;
while (c_before) {
tmp[j] = env->lines[env->line_no-1]->text[env->col_no-c_before-1].codepoint;
c_before--;
j++;
}
tmp[j] = 0;
/*
* TODO matches should probably be a struct with more data than just
* the matching string; maybe offset where the needle was found,
* class information, source file information - anything we can extract
* from ctags, but also other information for other sources of completion.
*/
struct completion_match *matches;
int matches_count;
/* TODO just reading ctags is rather mediocre; can we do something cool here? */
if (read_tags(tmp, &matches, &matches_count, 0)) {
goto _completion_done;
}
/* Draw box with matches at cursor-width(tmp) */
if (quit_quietly_on_none && matches_count == 0) {
free(tmp);
free(matches);
return 0;
}
draw_completion_matches(tmp, matches, matches_count, 0);
_completion_done:
place_cursor_actual();
while (1) {
c = bim_getch();
if (c == -1) continue;
if (matches_count < 1) {
redraw_all();
break;
}
if (c == 15) {
index = (index + 1) % matches_count;
draw_completion_matches(tmp, matches, matches_count, index);
place_cursor_actual();
continue;
} else if (c == '\t') {
for (unsigned int i = j; i < strlen(matches[index].string); ++i) {
insert_char(matches[index].string[i]);
}
set_preferred_column();
redraw_text();
place_cursor_actual();
goto _finish_completion;
} else if (isgraph(c) && c != '}') {
/* insert and continue matching */
insert_char(c);
set_preferred_column();
redraw_text();
place_cursor_actual();
retval = 1;
goto _finish_completion;
} else if (c == DELETE_KEY || c == BACKSPACE_KEY) {
delete_at_cursor();
set_preferred_column();
redraw_text();
place_cursor_actual();
retval = 1;
goto _finish_completion;
}
/* TODO: Keyboard navigation of the matches list would be nice */
redraw_all();
break;
}
bim_unget(c);
_finish_completion:
for (int i = 0; i < matches_count; ++i) {
free_completion_match(&matches[i]);
}
free(matches);
free(tmp);
return retval;
}
/**
* Set the search string from a UTF-8 sequence.
* Since the search string is normally a series of codepoints, this saves
* some effort when trying to search for things we pulled from the outside world.
* (eg., ctags search terms)
*/
static void set_search_from_bytes(char * bytes) {
if (global_config.search) free(global_config.search);
global_config.search = malloc(sizeof(uint32_t) * (strlen(bytes) * 2 + 1));
uint32_t * s = global_config.search;
char * tmp = bytes;
uint32_t c, istate = 0;
while (*tmp) {
if (strchr("\\.()[]+*?", *tmp)) {
*s++ = '\\';
*s++ = *tmp;
*s = 0;
tmp++;
continue;
}
if (!decode(&istate, &c, *tmp)) {
*s = c;
s++;
*s = 0;
} else if (istate == UTF8_REJECT) {
istate = 0;
}
tmp++;
}
}
static void _perform_correct_search(struct completion_match * matches, int i) {
if (matches[i].search[0] == '/') {
set_search_from_bytes(&matches[i].search[1]);
search_next();
} else {
goto_line(atoi(matches[i].search));
}
}
BIM_ACTION(goto_definition, 0,
"Jump to the definition of the word under under cursor."
,void) {
uint32_t * word = get_word_under_cursor();
if (!word) {
render_error("No match");
return;
}
struct completion_match *matches;
int matches_count;
if (read_tags(word, &matches, &matches_count, 1)) {
render_error("No tags file");
goto _done;
}
if (!matches_count) {
render_error("No match");
goto _done;
}
if (env->file_name && !strcmp(matches[0].file, env->file_name)) {
_perform_correct_search(matches, 0);
} else {
/* Check if there were other matches that are in this file */
for (int i =1; env->file_name && i < matches_count; ++i) {
if (!strcmp(matches[i].file, env->file_name)) {
_perform_correct_search(matches, i);
goto _done;
}
}
/* Check buffers */
for (int i = 0; i < buffers_len; ++i) {
if (buffers[i]->file_name && !strcmp(matches[0].file,buffers[i]->file_name)) {
if (left_buffer && buffers[i] != left_buffer && buffers[i] != right_buffer) unsplit();
env = buffers[i];
redraw_tabbar();
_perform_correct_search(matches, i);
goto _done;
}
}
/* Okay, let's try opening */
buffer_t * old_buf = env;
open_file(matches[0].file);
if (env != old_buf) {
_perform_correct_search(matches, 0);
} else {
render_error("Could not locate file containing definition");
}
}
_done:
for (int i = 0; i < matches_count; ++i) {
free_completion_match(&matches[i]);
}
free(matches);
free(word);
}
/**
* Read one codepoint, with verbatim support.
*/
int read_one_character(char * message) {
/* Read one character and replace */
if (!global_config.overlay_mode) {
render_commandline_message(message);
place_cursor_actual();
}
int c;
while ((c = bim_getkey(DEFAULT_KEY_WAIT))) {
if (c == KEY_TIMEOUT) continue;
if (c == KEY_CTRL_V) {
if (!global_config.overlay_mode) {
render_commandline_message(message);
printf(" ^V");
place_cursor_actual();
}
while ((c = bim_getch()) == -1);
break;
}
break;
}
redraw_commandline();
return c;
}
int read_one_byte(char * message) {
if (!global_config.overlay_mode) {
render_commandline_message(message);
place_cursor_actual();
}
int c;
while ((c = bim_getch())) {
if (c == -1) continue;
break;
}
redraw_commandline();
return c;
}
BIM_ACTION(cursor_left_with_wrap, 0,
"Move the cursor one position left, wrapping to the previous line."
,void) {
if (env->line_no > 1 && env->col_no == 1) {
env->line_no--;
env->col_no = env->lines[env->line_no-1]->actual;
set_preferred_column();
place_cursor_actual();
} else {
cursor_left();
}
}
BIM_ACTION(prepend_and_insert, ACTION_IS_RW,
"Insert a new line before the current line and enter insert mode."
,void) {
set_history_break();
env->lines = add_line(env->lines, env->line_no-1);
env->col_no = 1;
add_indent(env->line_no-1,env->line_no,0);
if (env->highlighting_paren && env->highlighting_paren > env->line_no) env->highlighting_paren++;
redraw_text();
set_preferred_column();
set_modified();
place_cursor_actual();
env->mode = MODE_INSERT;
}
BIM_ACTION(append_and_insert, ACTION_IS_RW,
"Insert a new line after the current line and enter insert mode."
,void) {
set_history_break();
unhighlight_matching_paren();
env->lines = add_line(env->lines, env->line_no);
env->col_no = 1;
env->line_no += 1;
add_indent(env->line_no-1,env->line_no-2,0);
set_preferred_column();
if (env->line_no > env->offset + global_config.term_height - global_config.bottom_size - 1) {
env->offset += 1;
}
if (env->highlighting_paren && env->highlighting_paren > env->line_no) env->highlighting_paren++;
redraw_text();
set_modified();
place_cursor_actual();
env->mode = MODE_INSERT;
}
BIM_ACTION(insert_after_cursor, ACTION_IS_RW,
"Place the cursor after the selected character and enter insert mode."
,void) {
if (env->col_no < env->lines[env->line_no-1]->actual + 1) {
env->col_no += 1;
}
enter_insert();
}
BIM_ACTION(delete_forward, ACTION_IS_RW,
"Delete the character under the cursor."
,void) {
if (env->col_no <= env->lines[env->line_no-1]->actual) {
line_delete(env->lines[env->line_no-1], env->col_no, env->line_no-1);
redraw_text();
} else if (env->col_no == env->lines[env->line_no-1]->actual + 1 && env->line_count > env->line_no) {
merge_lines(env->lines, env->line_no);
redraw_text();
}
set_modified();
redraw_statusbar();
place_cursor_actual();
}
BIM_ACTION(delete_forward_and_insert, ACTION_IS_RW,
"Delete the character under the cursor and enter insert mode."
,void) {
set_history_break();
delete_forward();
env->mode = MODE_INSERT;
}
BIM_ACTION(paste, ARG_IS_CUSTOM | ACTION_IS_RW,
"Paste yanked text before (`P`) or after (`p`) the cursor."
,int direction) {
if (global_config.yanks) {
env->slowop = 1;
if (!global_config.yank_is_full_lines) {
/* Handle P for paste before, p for past after */
int target_column = (direction == -1 ? (env->col_no) : (env->col_no+1));
if (target_column > env->lines[env->line_no-1]->actual + 1) {
target_column = env->lines[env->line_no-1]->actual + 1;
}
if (global_config.yank_count > 1) {
/* Spit the current line at the current position */
env->lines = split_line(env->lines, env->line_no - 1, target_column - 1); /* Split after */
}
/* Insert first line at current position */
for (int i = 0; i < global_config.yanks[0]->actual; ++i) {
env->lines[env->line_no - 1] = line_insert(env->lines[env->line_no - 1], global_config.yanks[0]->text[i], target_column + i - 1, env->line_no - 1);
}
if (global_config.yank_count > 1) {
/* Insert full lines */
for (unsigned int i = 1; i < global_config.yank_count - 1; ++i) {
env->lines = add_line(env->lines, env->line_no);
}
for (unsigned int i = 1; i < global_config.yank_count - 1; ++i) {
replace_line(env->lines, env->line_no + i - 1, global_config.yanks[i]);
}
/* Insert characters from last line into (what was) the next line */
for (int i = 0; i < global_config.yanks[global_config.yank_count-1]->actual; ++i) {
env->lines[env->line_no + global_config.yank_count - 2] = line_insert(env->lines[env->line_no + global_config.yank_count - 2], global_config.yanks[global_config.yank_count-1]->text[i], i, env->line_no + global_config.yank_count - 2);
}
}
} else {
/* Insert full lines */
for (unsigned int i = 0; i < global_config.yank_count; ++i) {
env->lines = add_line(env->lines, env->line_no - (direction == -1 ? 1 : 0));
}
for (unsigned int i = 0; i < global_config.yank_count; ++i) {
replace_line(env->lines, env->line_no - (direction == -1 ? 1 : 0) + i, global_config.yanks[i]);
}
}
env->slowop = 0;
schedule_complete_recalc();
/* Recalculate whole document syntax */
if (direction == 1) {
if (global_config.yank_is_full_lines) {
env->line_no += 1;
} else {
if (global_config.yank_count == 1) {
env->col_no = env->col_no + global_config.yanks[0]->actual;
} else {
env->line_no = env->line_no + global_config.yank_count - 1;
env->col_no = global_config.yanks[global_config.yank_count-1]->actual;
}
}
}
if (global_config.yank_is_full_lines) {
env->col_no = 1;
for (int i = 0; i < env->lines[env->line_no-1]->actual; ++i) {
if (!is_whitespace(env->lines[env->line_no-1]->text[i].codepoint)) {
env->col_no = i + 1;
break;
}
}
}
set_history_break();
set_modified();
redraw_all();
}
}
BIM_ACTION(insert_at_end, ACTION_IS_RW,
"Move the cursor to the end of the current line and enter insert mode."
,void) {
env->col_no = env->lines[env->line_no-1]->actual+1;
env->mode = MODE_INSERT;
set_history_break();
}
BIM_ACTION(enter_replace, ACTION_IS_RW,
"Enter replace mode."
,void) {
env->mode = MODE_REPLACE;
set_history_break();
}
BIM_ACTION(toggle_numbers, 0,
"Toggle the display of line numbers."
,void) {
env->numbers = !env->numbers;
redraw_all();
place_cursor_actual();
}
BIM_ACTION(toggle_gutter, 0,
"Toggle the display of the revision status gutter."
,void) {
env->gutter = !env->gutter;
redraw_all();
place_cursor_actual();
}
BIM_ACTION(toggle_indent, 0,
"Toggle smart indentation."
,void) {
env->indent = !env->indent;
redraw_statusbar();
place_cursor_actual();
}
BIM_ACTION(toggle_smartcomplete, 0,
"Toggle smart completion."
,void) {
global_config.smart_complete = !global_config.smart_complete;
redraw_statusbar();
place_cursor_actual();
}
BIM_ACTION(expand_split_right, 0,
"Move the view split divider to the right."
,void) {
global_config.split_percent += 1;
update_split_size();
redraw_all();
}
BIM_ACTION(expand_split_left, 0,
"Move the view split divider to the left."
,void) {
global_config.split_percent -= 1;
update_split_size();
redraw_all();
}
BIM_ACTION(go_page_up, 0,
"Jump up a screenfull."
,void) {
int destination = env->line_no - (global_config.term_height - 6);
if (destination < 1) destination = 1;
goto_line(destination);
}
BIM_ACTION(go_page_down, 0,
"Jump down a screenfull."
,void) {
goto_line(env->line_no + (global_config.term_height - 6));
}
BIM_ACTION(jump_to_matching_bracket, 0,
"Find and jump to the matching bracket for the character under the cursor."
,void) {
recalculate_selected_lines();
int paren_line = -1, paren_col = -1;
find_matching_paren(&paren_line, &paren_col, 1);
if (paren_line != -1) {
env->line_no = paren_line;
env->col_no = paren_col;
set_preferred_column();
place_cursor_actual();
redraw_statusbar();
}
}
BIM_ACTION(jump_to_previous_blank, 0,
"Jump to the preceding blank line before the cursor."
,void) {
env->col_no = 1;
if (env->line_no == 1) return;
do {
env->line_no--;
if (env->lines[env->line_no-1]->actual == 0) break;
} while (env->line_no > 1);
set_preferred_column();
redraw_statusbar();
}
BIM_ACTION(jump_to_next_blank, 0,
"Jump to the next blank line after the cursor."
,void) {
env->col_no = 1;
if (env->line_no == env->line_count) return;
do {
env->line_no++;
if (env->lines[env->line_no-1]->actual == 0) break;
} while (env->line_no < env->line_count);
set_preferred_column();
redraw_statusbar();
}
BIM_ACTION(first_non_whitespace, 0,
"Jump to the first non-whitespace character in the current line."
,void) {
for (int i = 0; i < env->lines[env->line_no-1]->actual; ++i) {
if (!is_whitespace(env->lines[env->line_no-1]->text[i].codepoint)) {
env->col_no = i + 1;
break;
}
}
set_preferred_column();
redraw_statusbar();
}
BIM_ACTION(next_line_non_whitespace, 0,
"Jump to the first non-whitespace character in the next next line."
,void) {
if (env->line_no < env->line_count) {
env->line_no++;
env->col_no = 1;
} else {
return;
}
first_non_whitespace();
}
BIM_ACTION(smart_backspace, ACTION_IS_RW,
"Delete the preceding character, with special handling for indentation."
,void) {
if (!env->tabs && env->col_no > 1) {
int i;
for (i = 0; i < env->col_no-1; ++i) {
if (!is_whitespace(env->lines[env->line_no-1]->text[i].codepoint)) break;
}
if (i == env->col_no-1) {
/* Backspace until aligned */
delete_at_cursor();
while (env->col_no > 1 && (env->col_no-1) % env->tabstop) {
delete_at_cursor();
}
return;
}
}
delete_at_cursor();
}
BIM_ACTION(perform_omni_completion, ACTION_IS_RW,
"(temporary) Perform smart symbol completion from ctags."
,void) {
/* This should probably be a submode */
while (omni_complete(0) == 1);
}
BIM_ACTION(smart_tab, ACTION_IS_RW,
"Insert a tab or spaces depending on indent mode. (Use ^V <tab> to guarantee a literal tab)"
,void) {
if (env->tabs) {
insert_char('\t');
} else {
for (int i = 0; i < env->tabstop; ++i) {
insert_char(' ');
}
}
}
BIM_ACTION(smart_comment_end, ARG_IS_INPUT | ACTION_IS_RW,
"Insert a `/` ending a C-style comment."
,int c) {
/* smart *end* of comment anyway */
if (env->indent) {
if ((env->lines[env->line_no-1]->text[env->col_no-2].flags & 0x1F) == FLAG_COMMENT &&
(env->lines[env->line_no-1]->text[env->col_no-2].codepoint == ' ') &&
(env->col_no > 3) &&
(env->lines[env->line_no-1]->text[env->col_no-3].codepoint == '*')) {
env->col_no--;
replace_char('/');
env->col_no++;
place_cursor_actual();
return;
}
}
insert_char(c);
}
BIM_ACTION(smart_brace_end, ARG_IS_INPUT | ACTION_IS_RW,
"Insert a closing brace and smartly position it if it is the first character on a line."
,int c) {
if (env->indent) {
int was_whitespace = 1;
for (int i = 0; i < env->lines[env->line_no-1]->actual; ++i) {
if (env->lines[env->line_no-1]->text[i].codepoint != ' ' &&
env->lines[env->line_no-1]->text[i].codepoint != '\t') {
was_whitespace = 0;
break;
}
}
insert_char(c);
if (was_whitespace) {
int line = -1, col = -1;
env->col_no--;
find_matching_paren(&line,&col, 1);
if (line != -1) {
line = find_brace_line_start(line, col);
while (env->lines[env->line_no-1]->actual) {
line_delete(env->lines[env->line_no-1], env->lines[env->line_no-1]->actual, env->line_no-1);
}
add_indent(env->line_no-1,line-1,1);
env->col_no = env->lines[env->line_no-1]->actual + 1;
insert_char(c);
}
}
set_preferred_column();
return;
}
insert_char(c);
}
BIM_ACTION(enter_line_selection_and_cursor_up, 0,
"Enter line selection and move the cursor up one line."
,void) {
enter_line_selection();
cursor_up();
}
BIM_ACTION(enter_line_selection_and_cursor_down, 0,
"Enter line selection and move the cursor down one line."
,void) {
enter_line_selection();
cursor_down();
}
BIM_ACTION(shift_horizontally, ARG_IS_CUSTOM,
"Shift the current line or screen view horizontally, depending on settings."
,int amount) {
env->coffset += amount;
if (env->coffset < 0) env->coffset = 0;
redraw_text();
}
static int state_before_paste = 0;
static int line_before_paste = 0;
BIM_ACTION(paste_begin, 0, "Begin bracketed paste; disable indentation, completion, etc.",void) {
if (global_config.smart_complete) state_before_paste |= 0x01;
if (env->indent) state_before_paste |= 0x02;
global_config.smart_complete = 0;
env->indent = 0;
env->slowop = 1;
line_before_paste = env->line_no;
}
BIM_ACTION(paste_end, 0, "End bracketed paste; restore indentation, completion, etc.",void) {
if (state_before_paste & 0x01) global_config.smart_complete = 1;
if (state_before_paste & 0x02) env->indent = 1;
env->slowop = 0;
int line_to_recalculate = (line_before_paste > 1 ? line_before_paste - 1 : 0);
recalculate_syntax(env->lines[line_to_recalculate], line_to_recalculate);
redraw_all();
}
#define MAP_ACTION(key, func, opts, arg) {key, opts, {{(uintptr_t)func, arg}}}
struct action_map _NORMAL_MAP[] = {
MAP_ACTION(KEY_BACKSPACE, cursor_left_with_wrap, opt_rep, 0),
MAP_ACTION('V', enter_line_selection, 0, 0),
MAP_ACTION('v', enter_char_selection, 0, 0),
MAP_ACTION(KEY_CTRL_V, enter_col_selection, 0, 0),
MAP_ACTION('O', prepend_and_insert, opt_rw, 0),
MAP_ACTION('o', append_and_insert, opt_rw, 0),
MAP_ACTION('a', insert_after_cursor, opt_rw, 0),
MAP_ACTION('s', delete_forward_and_insert, opt_rw, 0),
MAP_ACTION('x', delete_forward, opt_rep | opt_rw, 0),
MAP_ACTION('P', paste, opt_arg | opt_rw, -1),
MAP_ACTION('p', paste, opt_arg | opt_rw, 1),
MAP_ACTION('r', replace_char, opt_char | opt_rw, 0),
MAP_ACTION('A', insert_at_end, opt_rw, 0),
MAP_ACTION('u', undo_history, opt_rw, 0),
MAP_ACTION(KEY_CTRL_R, redo_history, opt_rw, 0),
MAP_ACTION(KEY_CTRL_L, redraw_all, 0, 0),
MAP_ACTION(KEY_CTRL_G, goto_definition, 0, 0),
MAP_ACTION('i', enter_insert, opt_rw, 0),
MAP_ACTION('R', enter_replace, opt_rw, 0),
MAP_ACTION(KEY_SHIFT_UP, enter_line_selection_and_cursor_up, 0, 0),
MAP_ACTION(KEY_SHIFT_DOWN, enter_line_selection_and_cursor_down, 0, 0),
MAP_ACTION(KEY_ALT_UP, previous_tab, 0, 0),
MAP_ACTION(KEY_ALT_DOWN, next_tab, 0, 0),
MAP_ACTION(KEY_CTRL_UNDERSCORE, start_file_search, 0, 0),
MAP_ACTION(-1, NULL, 0, 0),
};
struct action_map _INSERT_MAP[] = {
MAP_ACTION(KEY_ESCAPE, leave_insert, 0, 0),
MAP_ACTION(KEY_DELETE, delete_forward, 0, 0),
MAP_ACTION(KEY_CTRL_C, leave_insert, 0, 0),
MAP_ACTION(KEY_BACKSPACE, smart_backspace, 0, 0),
MAP_ACTION(KEY_ENTER, insert_line_feed, 0, 0),
MAP_ACTION(KEY_CTRL_O, perform_omni_completion, 0, 0),
MAP_ACTION(KEY_CTRL_V, insert_char, opt_byte, 0),
MAP_ACTION(KEY_CTRL_W, delete_word, 0, 0),
MAP_ACTION('\t', smart_tab, 0, 0),
MAP_ACTION('/', smart_comment_end, opt_arg, '/'),
MAP_ACTION('}', smart_brace_end, opt_arg, '}'),
MAP_ACTION(KEY_PASTE_BEGIN, paste_begin, 0, 0),
MAP_ACTION(KEY_PASTE_END, paste_end, 0, 0),
MAP_ACTION(-1, NULL, 0, 0),
};
struct action_map _REPLACE_MAP[] = {
MAP_ACTION(KEY_ESCAPE, leave_insert, 0, 0),
MAP_ACTION(KEY_DELETE, delete_forward, 0, 0),
MAP_ACTION(KEY_BACKSPACE, cursor_left_with_wrap, 0, 0),
MAP_ACTION(KEY_ENTER, insert_line_feed, 0, 0),
MAP_ACTION(-1, NULL, 0, 0),
};
struct action_map _LINE_SELECTION_MAP[] = {
MAP_ACTION(KEY_ESCAPE, leave_selection, 0, 0),
MAP_ACTION(KEY_CTRL_C, leave_selection, 0, 0),
MAP_ACTION('V', leave_selection, 0, 0),
MAP_ACTION('v', switch_selection_mode, opt_arg, MODE_CHAR_SELECTION),
MAP_ACTION('y', yank_lines, opt_norm, 0),
MAP_ACTION(KEY_BACKSPACE, cursor_left_with_wrap, 0, 0),
MAP_ACTION('\t', adjust_indent, opt_arg | opt_rw, 1),
MAP_ACTION(KEY_SHIFT_TAB, adjust_indent, opt_arg | opt_rw, -1),
MAP_ACTION('D', delete_and_yank_lines, opt_rw | opt_norm, 0),
MAP_ACTION('d', delete_and_yank_lines, opt_rw | opt_norm, 0),
MAP_ACTION('x', delete_and_yank_lines, opt_rw | opt_norm, 0),
MAP_ACTION('s', delete_lines_and_enter_insert, opt_rw, 0),
MAP_ACTION('r', replace_chars_in_line, opt_char | opt_rw, 0),
MAP_ACTION(KEY_SHIFT_UP, cursor_up, 0, 0),
MAP_ACTION(KEY_SHIFT_DOWN, cursor_down, 0, 0),
MAP_ACTION(-1, NULL, 0, 0),
};
struct action_map _CHAR_SELECTION_MAP[] = {
MAP_ACTION(KEY_ESCAPE, leave_selection, 0, 0),
MAP_ACTION(KEY_CTRL_C, leave_selection, 0, 0),
MAP_ACTION('v', leave_selection, 0, 0),
MAP_ACTION('V', switch_selection_mode, opt_arg, MODE_LINE_SELECTION),
MAP_ACTION('y', yank_characters, opt_norm, 0),
MAP_ACTION(KEY_BACKSPACE, cursor_left_with_wrap, 0, 0),
MAP_ACTION('D', delete_and_yank_chars, opt_rw | opt_norm, 0),
MAP_ACTION('d', delete_and_yank_chars, opt_rw | opt_norm, 0),
MAP_ACTION('x', delete_and_yank_chars, opt_rw | opt_norm, 0),
MAP_ACTION('s', delete_chars_and_enter_insert, opt_rw, 0),
MAP_ACTION('r', replace_chars, opt_char | opt_rw, 0),
MAP_ACTION('A', insert_at_end_of_selection, opt_rw, 0),
MAP_ACTION(-1, NULL, 0, 0),
};
struct action_map _COL_SELECTION_MAP[] = {
MAP_ACTION(KEY_ESCAPE, leave_selection, 0, 0),
MAP_ACTION(KEY_CTRL_C, leave_selection, 0, 0),
MAP_ACTION(KEY_CTRL_V, leave_selection, 0, 0),
MAP_ACTION('I', enter_col_insert, opt_rw, 0),
MAP_ACTION('a', enter_col_insert_after, opt_rw, 0),
MAP_ACTION('d', delete_at_column, opt_arg | opt_rw, 1),
MAP_ACTION(-1, NULL, 0, 0),
};
struct action_map _COL_INSERT_MAP[] = {
MAP_ACTION(KEY_ESCAPE, leave_selection, 0, 0),
MAP_ACTION(KEY_CTRL_C, leave_selection, 0, 0),
MAP_ACTION(KEY_BACKSPACE, delete_at_column, opt_arg, -1),
MAP_ACTION(KEY_DELETE, delete_at_column, opt_arg, 1),
MAP_ACTION(KEY_ENTER, NULL, 0, 0),
MAP_ACTION(KEY_CTRL_W, NULL, 0, 0),
MAP_ACTION(KEY_CTRL_V, insert_char_at_column, opt_char, 0),
MAP_ACTION('\t', insert_tab_at_column, 0, 0),
MAP_ACTION(KEY_LEFT, column_left, 0, 0),
MAP_ACTION(KEY_RIGHT, column_right, 0, 0),
MAP_ACTION(KEY_UP, column_up, 0, 0),
MAP_ACTION(KEY_DOWN, column_down, 0, 0),
MAP_ACTION(-1, NULL, 0, 0),
};
struct action_map _NAVIGATION_MAP[] = {
/* Common navigation */
MAP_ACTION(KEY_CTRL_B, go_page_up, opt_rep, 0),
MAP_ACTION(KEY_CTRL_F, go_page_down, opt_rep, 0),
MAP_ACTION(':', enter_command, 0, 0),
MAP_ACTION('/', enter_search, opt_arg, 1),
MAP_ACTION('?', enter_search, opt_arg, 0),
MAP_ACTION('n', search_next, opt_rep, 0),
MAP_ACTION('N', search_prev, opt_rep, 0),
MAP_ACTION('j', cursor_down, opt_rep, 0),
MAP_ACTION('k', cursor_up, opt_rep, 0),
MAP_ACTION('h', cursor_left, opt_rep, 0),
MAP_ACTION('l', cursor_right, opt_rep, 0),
MAP_ACTION('b', word_left, opt_rep, 0),
MAP_ACTION('w', word_right, opt_rep, 0),
MAP_ACTION('B', big_word_left, opt_rep, 0),
MAP_ACTION('W', big_word_right, opt_rep, 0),
MAP_ACTION('<', shift_horizontally, opt_arg, -1),
MAP_ACTION('>', shift_horizontally, opt_arg, 1),
MAP_ACTION('f', find_character_forward, opt_rep | opt_arg | opt_char, 'f'),
MAP_ACTION('F', find_character_backward, opt_rep | opt_arg | opt_char, 'F'),
MAP_ACTION('t', find_character_forward, opt_rep | opt_arg | opt_char, 't'),
MAP_ACTION('T', find_character_backward, opt_rep | opt_arg | opt_char, 'T'),
MAP_ACTION('G', goto_line, opt_nav, 0),
MAP_ACTION('*', search_under_cursor, 0, 0),
MAP_ACTION(' ', go_page_down, opt_rep, 0),
MAP_ACTION('%', jump_to_matching_bracket, 0, 0),
MAP_ACTION('{', jump_to_previous_blank, opt_rep, 0),
MAP_ACTION('}', jump_to_next_blank, opt_rep, 0),
MAP_ACTION('$', cursor_end, 0, 0),
MAP_ACTION('|', cursor_home, 0, 0),
MAP_ACTION(KEY_ENTER, next_line_non_whitespace, opt_rep, 0),
MAP_ACTION('^', first_non_whitespace, 0, 0),
MAP_ACTION('0', cursor_home, 0, 0),
MAP_ACTION(-1, NULL, 0, 0),
};
struct action_map _ESCAPE_MAP[] = {
MAP_ACTION(KEY_F1, toggle_numbers, 0, 0),
MAP_ACTION(KEY_F2, toggle_indent, 0, 0),
MAP_ACTION(KEY_F3, toggle_gutter, 0, 0),
MAP_ACTION(KEY_F4, toggle_smartcomplete, 0, 0),
MAP_ACTION(KEY_MOUSE, handle_mouse, 0, 0),
MAP_ACTION(KEY_MOUSE_SGR, handle_mouse_sgr, 0, 0),
MAP_ACTION(KEY_UP, cursor_up, opt_rep, 0),
MAP_ACTION(KEY_DOWN, cursor_down, opt_rep, 0),
MAP_ACTION(KEY_RIGHT, cursor_right, opt_rep, 0),
MAP_ACTION(KEY_CTRL_RIGHT, big_word_right, opt_rep, 0),
MAP_ACTION(KEY_SHIFT_RIGHT, word_right, opt_rep, 0),
MAP_ACTION(KEY_ALT_RIGHT, expand_split_right, opt_rep, 0),
MAP_ACTION(KEY_ALT_SHIFT_RIGHT, use_right_buffer, opt_rep, 0),
MAP_ACTION(KEY_LEFT, cursor_left, opt_rep, 0),
MAP_ACTION(KEY_CTRL_LEFT, big_word_left, opt_rep, 0),
MAP_ACTION(KEY_SHIFT_LEFT, word_left, opt_rep, 0),
MAP_ACTION(KEY_ALT_LEFT, expand_split_left, opt_rep, 0),
MAP_ACTION(KEY_ALT_SHIFT_LEFT, use_left_buffer, opt_rep, 0),
MAP_ACTION(KEY_HOME, cursor_home, 0, 0),
MAP_ACTION(KEY_END, cursor_end, 0, 0),
MAP_ACTION(KEY_PAGE_UP, go_page_up, opt_rep, 0),
MAP_ACTION(KEY_PAGE_DOWN, go_page_down, opt_rep, 0),
MAP_ACTION(KEY_CTRL_Z, suspend, 0, 0),
MAP_ACTION(-1, NULL, 0, 0)
};
struct action_map _COMMAND_MAP[] = {
MAP_ACTION(KEY_ENTER, command_accept, 0, 0),
MAP_ACTION('\t', command_tab_complete_buffer, 0, 0),
MAP_ACTION(KEY_UP, command_scroll_history, opt_arg, -1), /* back */
MAP_ACTION(KEY_DOWN, command_scroll_history, opt_arg, 1), /* forward */
MAP_ACTION(-1, NULL, 0, 0)
};
struct action_map _FILESEARCH_MAP[] = {
MAP_ACTION(KEY_ENTER, file_search_accept, 0, 0),
MAP_ACTION(KEY_UP, NULL, 0, 0),
MAP_ACTION(KEY_DOWN, NULL, 0, 0),
MAP_ACTION(-1, NULL, 0, 0)
};
struct action_map _SEARCH_MAP[] = {
MAP_ACTION(KEY_ENTER, search_accept, 0, 0),
MAP_ACTION(KEY_UP, command_scroll_search_history, opt_arg, -1), /* back */
MAP_ACTION(KEY_DOWN, command_scroll_search_history, opt_arg, 1), /* forward */
MAP_ACTION(-1, NULL, 0, 0)
};
struct action_map _INPUT_BUFFER_MAP[] = {
/* These are generic and shared with search */
MAP_ACTION(KEY_ESCAPE, command_discard, 0, 0),
MAP_ACTION(KEY_CTRL_C, command_discard, 0, 0),
MAP_ACTION(KEY_BACKSPACE, command_backspace, 0, 0),
MAP_ACTION(KEY_CTRL_W, command_word_delete, 0, 0),
MAP_ACTION(KEY_MOUSE, eat_mouse, 0, 0),
MAP_ACTION(KEY_MOUSE_SGR, eat_mouse_sgr, 0, 0),
MAP_ACTION(KEY_LEFT, command_cursor_left, 0, 0),
MAP_ACTION(KEY_CTRL_LEFT, command_word_left, 0, 0),
MAP_ACTION(KEY_RIGHT, command_cursor_right, 0, 0),
MAP_ACTION(KEY_CTRL_RIGHT,command_word_right, 0, 0),
MAP_ACTION(KEY_HOME, command_cursor_home, 0, 0),
MAP_ACTION(KEY_END, command_cursor_end, 0, 0),
MAP_ACTION(-1, NULL, 0, 0)
};
/* DIRECTORY_BROWSE_MAP is only to override KEY_ENTER and should not be remapped,
* so unlike the others it is not going to be redefined as a pointer. */
struct action_map DIRECTORY_BROWSE_MAP[] = {
MAP_ACTION(KEY_ENTER, open_file_from_line, 0, 0),
MAP_ACTION(-1, NULL, 0, 0)
};
struct action_map * NORMAL_MAP = NULL;
struct action_map * INSERT_MAP = NULL;
struct action_map * REPLACE_MAP = NULL;
struct action_map * LINE_SELECTION_MAP = NULL;
struct action_map * CHAR_SELECTION_MAP = NULL;
struct action_map * COL_SELECTION_MAP = NULL;
struct action_map * COL_INSERT_MAP = NULL;
struct action_map * NAVIGATION_MAP = NULL;
struct action_map * ESCAPE_MAP = NULL;
struct action_map * COMMAND_MAP = NULL;
struct action_map * SEARCH_MAP = NULL;
struct action_map * FILESEARCH_MAP = NULL;
struct action_map * INPUT_BUFFER_MAP = NULL;
struct mode_names mode_names[] = {
{"Normal","norm",&NORMAL_MAP},
{"Insert","insert",&INSERT_MAP},
{"Replace","replace",&REPLACE_MAP},
{"Line Selection","line",&LINE_SELECTION_MAP},
{"Char Selection","char",&CHAR_SELECTION_MAP},
{"Col Selection","col",&COL_SELECTION_MAP},
{"Col Insert","colinsert",&COL_INSERT_MAP},
{"Navigation (Select)","nav",&NAVIGATION_MAP},
{"Escape (Select, Insert)","esc",&ESCAPE_MAP},
{"Command","command",&COMMAND_MAP},
{"Search","search",&SEARCH_MAP},
{"Input (Command, Search)","input",&INPUT_BUFFER_MAP},
{NULL,NULL,NULL},
};
typedef void (*action_no_arg)(void);
typedef void (*action_one_arg)(int);
typedef void (*action_two_arg)(int,int);
typedef void (*action_three_arg)(int,int,int);
int handle_action(struct action_map * basemap, int key) {
for (struct action_map * map = basemap; map->key != -1; map++) {
if (map->key == key) {
if (!map->method) return 1;
if ((map->options & opt_rw) && (env->readonly)) {
render_error("Buffer is read-only");
return 2;
}
/* Determine how to format this request */
int reps = (map->options & opt_rep) ? ((nav_buffer) ? atoi(nav_buf) : 1) : 1;
int c = 0;
if (map->options & opt_char) {
c = read_one_character(name_from_key(key));
}
if (map->options & opt_byte) {
c = read_one_byte(name_from_key(key));
}
for (int i = 0; i < reps; ++i) {
if (((map->options & opt_char) || (map->options & opt_byte)) && (map->options & opt_arg)) {
((action_two_arg)map->method)(map->arg, c);
} else if ((map->options & opt_char) || (map->options & opt_byte)) {
((action_one_arg)map->method)(c);
} else if (map->options & opt_arg) {
((action_one_arg)map->method)(map->arg);
} else if (map->options & opt_nav) {
if (nav_buffer) {
((action_one_arg)map->method)(atoi(nav_buf));
reset_nav_buffer(0);
} else {
((action_one_arg)map->method)(-1);
}
} else if (map->options & opt_krk) {
ptrdiff_t before = krk_currentThread.stackTop - krk_currentThread.stack;
krk_push(map->callable);
krk_push(INTEGER_VAL(key));
krk_push(map->callable);
KrkValue result = krk_callStack(2);
krk_currentThread.stackTop = krk_currentThread.stack + before;
if (IS_NONE(result) && (krk_currentThread.flags & KRK_THREAD_HAS_EXCEPTION)) {
render_error("Exception during action: %s", AS_INSTANCE(krk_currentThread.currentException)->_class->name->chars);
krk_dumpTraceback();
int key = 0;
while ((key = bim_getkey(DEFAULT_KEY_WAIT)) == KEY_TIMEOUT);
}
} else {
((action_no_arg)map->method)();
}
}
if (map->options & opt_norm) {
if (env->mode == MODE_INSERT || env->mode == MODE_REPLACE) leave_insert();
else if (env->mode == MODE_LINE_SELECTION || env->mode == MODE_CHAR_SELECTION || env->mode == MODE_COL_SELECTION) leave_selection();
else {
env->mode = MODE_NORMAL;
redraw_all();
}
}
return 1;
}
}
return 0;
}
int handle_nav_buffer(int key) {
if ((key >= '1' && key <= '9') || (key == '0' && nav_buffer)) {
if (nav_buffer < NAV_BUFFER_MAX) {
/* Up to NAV_BUFFER_MAX=10 characters; that should be enough for most tasks */
nav_buf[nav_buffer] = key;
nav_buf[nav_buffer+1] = 0;
nav_buffer++;
/* Print the number buffer */
redraw_commandline();
}
return 0;
}
return 1;
}
/**
* NORMAL mode
*
* Default editor mode - just cursor navigation and keybinds
* to enter the other modes.
*/
void normal_mode(void) {
int last_mode = MODE_NORMAL;
int refresh = 0;
while (1) {
if (global_config.overlay_mode) {
if (global_config.overlay_mode == OVERLAY_MODE_COMMAND) {
if (refresh) {
render_command_input_buffer();
refresh = 0;
}
int key = bim_getkey(DEFAULT_KEY_WAIT);
if (key != KEY_TIMEOUT) {
refresh = 1;
if (!handle_action(COMMAND_MAP, key))
if (!handle_action(INPUT_BUFFER_MAP, key))
if (key < KEY_ESCAPE) command_insert_char(key);
}
continue;
} else if (global_config.overlay_mode == OVERLAY_MODE_FILESEARCH) {
if (refresh) {
redraw_tabbar();
render_command_input_buffer();
refresh = 0;
}
int key = bim_getkey(DEFAULT_KEY_WAIT);
if (key != KEY_TIMEOUT) {
refresh = 1;
if (!handle_action(FILESEARCH_MAP, key))
if (!handle_action(INPUT_BUFFER_MAP, key))
if (key < KEY_ESCAPE) command_insert_char(key);
}
continue;
} else if (global_config.overlay_mode == OVERLAY_MODE_SEARCH) {
if (refresh) {
render_command_input_buffer();
refresh = 0;
}
int key = bim_getkey(DEFAULT_KEY_WAIT);
if (key != KEY_TIMEOUT) {
refresh = 1;
if (!handle_action(SEARCH_MAP, key)) {
if (!handle_action(INPUT_BUFFER_MAP, key)) {
if (key < KEY_ESCAPE) command_insert_char(key);
}
}
if (global_config.overlay_mode == OVERLAY_MODE_SEARCH) {
/* Find the next search match */
uint32_t * buffer = malloc(sizeof(uint32_t) * (global_config.command_buffer->actual+1));
for (int i = 0; i < global_config.command_buffer->actual; ++i) {
buffer[i] = global_config.command_buffer->text[i].codepoint;
}
buffer[global_config.command_buffer->actual] = 0;
int line = -1, col = -1;
if (global_config.search_direction == 1) {
find_match(global_config.prev_line, global_config.prev_col, &line, &col, buffer, NULL);
if (line == -1 && global_config.search_wraps) {
find_match(1, 1, &line, &col, buffer, NULL);
}
} else {
find_match_backwards(global_config.prev_line, global_config.prev_col, &line, &col, buffer);
if (line == -1 && global_config.search_wraps) {
find_match_backwards(env->line_count, env->lines[env->line_count-1]->actual, &line, &col, buffer);
}
}
if (line != -1) {
env->col_no = col;
env->line_no = line;
set_preferred_column();
} else {
env->coffset = global_config.prev_coffset;
env->offset = global_config.prev_offset;
env->col_no = global_config.prev_col;
set_preferred_column();
env->line_no = global_config.prev_line;
}
draw_search_match(buffer, 0);
free(buffer);
}
}
continue;
}
}
if (env->mode != last_mode) {
redraw_statusbar();
redraw_commandline();
last_mode = env->mode;
}
if (env->mode == MODE_NORMAL) {
place_cursor_actual();
int key = 0;
do {
key = bim_getkey(DEFAULT_KEY_WAIT);
} while (key == KEY_TIMEOUT);
if (handle_nav_buffer(key)) {
if (!handle_action(NORMAL_MAP, key))
if (!handle_action(NAVIGATION_MAP, key))
handle_action(ESCAPE_MAP, key);
}
reset_nav_buffer(key);
} else if (env->mode == MODE_INSERT) {
if (!refresh) place_cursor_actual();
int key = bim_getkey(refresh ? 10 : DEFAULT_KEY_WAIT);
if (key == KEY_TIMEOUT) {
place_cursor_actual();
if (refresh > 1) {
redraw_text();
} else if (refresh) {
redraw_line(env->line_no-1);
}
refresh = 0;
} else if (handle_action(INSERT_MAP, key)) {
refresh = 2;
} else if (handle_action(ESCAPE_MAP, key)) {
/* Do nothing */
} else if (key < KEY_ESCAPE) {
insert_char(key);
if (global_config.smart_complete) {
redraw_line(env->line_no-1);
while (omni_complete(1) == 1);
}
refresh |= 1;
}
} else if (env->mode == MODE_REPLACE) {
place_cursor_actual();
int key = bim_getkey(DEFAULT_KEY_WAIT);
if (key != KEY_TIMEOUT) {
if (handle_action(REPLACE_MAP, key)) {
redraw_text();
} else if (!handle_action(ESCAPE_MAP, key)) {
/* Perform replacement */
if (key < KEY_ESCAPE) {
if (env->col_no <= env->lines[env->line_no - 1]->actual) {
replace_char(key);
env->col_no += 1;
} else {
insert_char(key);
redraw_line(env->line_no-1);
}
set_preferred_column();
}
}
}
} else if (env->mode == MODE_LINE_SELECTION) {
place_cursor_actual();
int key = bim_getkey(DEFAULT_KEY_WAIT);
if (key == KEY_TIMEOUT) continue;
if (handle_nav_buffer(key)) {
if (!handle_action(LINE_SELECTION_MAP, key))
if (!handle_action(NAVIGATION_MAP, key))
handle_action(ESCAPE_MAP, key);
}
reset_nav_buffer(key);
if (env->mode == MODE_LINE_SELECTION) {
/* Mark current line */
_redraw_line(env->line_no,0);
_redraw_line(env->start_line,1);
/* Properly mark everything in the span we just moved through */
if (env->prev_line < env->line_no) {
for (int i = env->prev_line; i < env->line_no; ++i) {
_redraw_line(i,0);
}
env->prev_line = env->line_no;
} else if (env->prev_line > env->line_no) {
for (int i = env->line_no + 1; i <= env->prev_line; ++i) {
_redraw_line(i,0);
}
env->prev_line = env->line_no;
}
redraw_commandline();
}
} else if (env->mode == MODE_CHAR_SELECTION) {
place_cursor_actual();
int key = bim_getkey(DEFAULT_KEY_WAIT);
if (key == KEY_TIMEOUT) continue;
if (handle_nav_buffer(key)) {
if (!handle_action(CHAR_SELECTION_MAP, key))
if (!handle_action(NAVIGATION_MAP, key))
handle_action(ESCAPE_MAP, key);
}
reset_nav_buffer(key);
if (env->mode == MODE_CHAR_SELECTION) {
/* Mark current line */
_redraw_line_char(env->line_no,1);
/* Properly mark everything in the span we just moved through */
if (env->prev_line < env->line_no) {
for (int i = env->prev_line; i < env->line_no; ++i) {
_redraw_line_char(i,1);
}
env->prev_line = env->line_no;
} else if (env->prev_line > env->line_no) {
for (int i = env->line_no + 1; i <= env->prev_line; ++i) {
_redraw_line_char(i,1);
}
env->prev_line = env->line_no;
}
}
} else if (env->mode == MODE_COL_SELECTION) {
place_cursor_actual();
int key = bim_getkey(DEFAULT_KEY_WAIT);
if (key == KEY_TIMEOUT) continue;
if (handle_nav_buffer(key)) {
if (!handle_action(COL_SELECTION_MAP, key))
if (!handle_action(NAVIGATION_MAP, key))
handle_action(ESCAPE_MAP, key);
}
reset_nav_buffer(key);
if (env->mode == MODE_COL_SELECTION) {
_redraw_line_col(env->line_no, 0);
/* Properly mark everything in the span we just moved through */
if (env->prev_line < env->line_no) {
for (int i = env->prev_line; i < env->line_no; ++i) {
_redraw_line_col(i,0);
}
env->prev_line = env->line_no;
} else if (env->prev_line > env->line_no) {
for (int i = env->line_no + 1; i <= env->prev_line; ++i) {
_redraw_line_col(i,0);
}
env->prev_line = env->line_no;
}
redraw_commandline();
}
} else if (env->mode == MODE_COL_INSERT) {
int key = bim_getkey(refresh ? 10 : DEFAULT_KEY_WAIT);
if (key == KEY_TIMEOUT) {
if (refresh) {
redraw_commandline();
redraw_text();
}
refresh = 0;
} else if (handle_action(COL_INSERT_MAP, key)) {
refresh = 2;
} else if (key < KEY_ESCAPE) {
insert_char_at_column(key);
refresh = 1;
}
} if (env->mode == MODE_DIRECTORY_BROWSE) {
place_cursor_actual();
int key = bim_getkey(DEFAULT_KEY_WAIT);
if (handle_nav_buffer(key)) {
if (!handle_action(DIRECTORY_BROWSE_MAP, key))
if (!handle_action(NAVIGATION_MAP, key))
handle_action(ESCAPE_MAP, key);
}
reset_nav_buffer(key);
}
}
}
KrkClass * CommandDef;
struct CommandDef {
KrkInstance inst;
struct command_def * command;
};
int process_krk_command(const char * cmd, KrkValue * outVal) {
place_cursor(global_config.term_width, global_config.term_height);
fprintf(stdout, "\n");
/* By resetting, we're at 0 frames. */
krk_resetStack();
/* Push something so we're not at the bottom of the stack when an
* exception happens, or we'll get the normal interpreter behavior
* and won't be able to examine the exception ourselves. */
krk_push(NONE_VAL());
/* If we don't set outSlots for the top frame a syntax error will
* get printed by the interpreter and we can't catch it here. */
krk_currentThread.frames[0].outSlots = 1;
/* Call the interpreter */
KrkValue out = krk_interpret(cmd,"<bim>");
/* If the user typed just a command name, try to execute it. */
if (krk_isInstanceOf(out,CommandDef)) {
krk_push(out);
out = krk_callStack(0);
}
if (outVal) *outVal = out;
int retval = (IS_INTEGER(out)) ? AS_INTEGER(out) : 0;
int hadOutput = 0;
/* If we got an exception during execution, print it now */
if (krk_currentThread.flags & KRK_THREAD_HAS_EXCEPTION) {
if (krk_isInstanceOf(krk_currentThread.currentException, vm.exceptions->syntaxError)) {
}
set_fg_color(COLOR_RED);
fflush(stdout);
krk_dumpTraceback();
set_fg_color(COLOR_FG);
fflush(stdout);
hadOutput = 1;
krk_resetStack();
}
/* Otherwise, we can look at the result here. */
if (!IS_NONE(out) && !(IS_INTEGER(out) && AS_INTEGER(out) == 0)) {
krk_attachNamedValue(&vm.builtins->fields, "_", out);
krk_push(out);
KrkValue repr = krk_callDirect(krk_getType(out)->_reprer, 1);
if (IS_STRING(repr)) {
fprintf(stdout, " => %s\n", AS_CSTRING(repr));
clear_to_end();
}
krk_resetStack();
hadOutput = 1;
}
/* If we had either an exception or a non-zero, non-None result,
* we want to wait for a key press before continuing, and avoid
* clearing the screen if the user is going to enter another command. */
if (hadOutput) {
int c;
while ((c = bim_getch())== -1);
if (c != ':') {
bim_unget(c);
} else {
enter_command();
global_config.command_offset = 0;
global_config.command_col_no = 1;
render_command_input_buffer();
return retval;
}
}
global_config.break_from_selection = 1;
if (!global_config.had_error) redraw_all();
global_config.had_error = 0;
return retval;
}
/**
* Show help text for -?
*/
static void show_usage(char * argv[]) {
#define _s "\033[3m"
#define _e "\033[0m\n"
printf(
"bim - Text editor\n"
"\n"
"usage: %s [options] [file]\n"
" %s [options] -- -\n"
"\n"
" -R " _s "open initial buffer read-only" _e
" -O " _s "set various options; examples:" _e
" noaltscreen " _s "disable alternate screen buffer" _e
" nounicode " _s "disable unicode display" _e
" nosyntax " _s "disable syntax highlighting on load" _e
" nohistory " _s "disable undo/redo" _e
" nomouse " _s "disable mouse support" _e
" cansgrmouse " _s "enable SGR mouse escape sequences" _e
" -c,-C " _s "print file to stdout with syntax highlighting" _e
" " _s "-C includes line numbers, -c does not" _e
" -u " _s "override bimrc file" _e
" -? " _s "show this help text" _e
"\n"
"Long options:\n"
" --help " _s "show this help text" _e
" --version " _s "show version information and available plugins" _e
" --dump-mappings " _s "dump markdown description of key mappings" _e
" --dump-commands " _s "dump markdown description of all commands" _e
" --dump-config " _s "dump key mappings as a bimscript" _e
" --html FILE " _s "convert FILE to syntax-highlighted HTML" _e
"\n", argv[0], argv[0]);
#undef _e
#undef _s
}
BIM_COMMAND(runkrk,"runkrk", "Run a kuroko script") {
if (argc < 2) return 1;
krk_runfile(argv[1],argv[1]);
redraw_all();
return 0;
}
/**
* Enable or disable terminal features/quirks and other options.
* Used by -O and by the `quirks` bimrc command.
*/
int set_capability(char * arg) {
char * argname;
int value;
if (strstr(arg,"no") == arg) {
argname = &arg[2];
value = 0;
} else if (strstr(arg,"can") == arg) {
argname = &arg[3];
value = 1;
} else {
render_error("Capabilities must by 'no{CAP}' or 'can{CAP}': %s", arg);
return 2;
}
/* Terminal features / quirks */
if (!strcmp(argname, "24bit")) global_config.can_24bit = value;
else if (!strcmp(argname, "256color")) global_config.can_256color = value;
else if (!strcmp(argname, "altscreen")) global_config.can_altscreen = value;
else if (!strcmp(argname, "bce")) global_config.can_bce = value;
else if (!strcmp(argname, "bright")) global_config.can_bright = value;
else if (!strcmp(argname, "hideshow")) global_config.can_hideshow = value;
else if (!strcmp(argname, "italic")) global_config.can_italic = value;
else if (!strcmp(argname, "mouse")) global_config.can_mouse = value;
else if (!strcmp(argname, "scroll")) global_config.can_scroll = value;
else if (!strcmp(argname, "title")) global_config.can_title = value;
else if (!strcmp(argname, "unicode")) global_config.can_unicode = value;
else if (!strcmp(argname, "insert")) global_config.can_insert = value;
else if (!strcmp(argname, "paste")) global_config.can_bracketedpaste = value;
else if (!strcmp(argname, "sgrmouse")) global_config.can_sgrmouse = value;
/* Startup options */
else if (!strcmp(argname, "syntax")) global_config.highlight_on_open = value;
else if (!strcmp(argname, "history")) global_config.history_enabled = value;
else {
render_error("Unknown capability: %s", argname);
return 1;
}
return 0;
}
BIM_COMMAND(setcap, "setcap", "Enable or disable quirks/features.") {
for (int i = 1; i < argc; ++i) {
if (set_capability(argv[i])) return 1;
}
return 0;
}
BIM_COMMAND(quirk,"quirk","Handle quirks based on environment variables") {
if (argc < 3) goto _quirk_arg_error;
char * varname = argv[1];
char * teststr = argv[2];
char * value = getenv(varname);
if (!value) return 0;
if (strstr(value, teststr) == value) {
/* Process quirk strings */
for (int i = 3; i < argc; ++i) {
set_capability(argv[i]);
}
}
return 0;
_quirk_arg_error:
render_error("Usage: quirk ENVVAR value no... can...");
return 1;
}
/**
* Load bimrc configuration file.
*
* At the moment, this a simple key=value list.
*/
void load_bimrc(void) {
if (!global_config.bimrc_path) return;
/* Default is ~/.bimrc */
char * tmp = strdup(global_config.bimrc_path);
if (!*tmp) {
free(tmp);
return;
}
/* Parse ~ at the front of the path. */
if (*tmp == '~') {
char path[1024] = {0};
char * home = getenv("HOME");
if (!home) {
/* $HOME is unset? */
free(tmp);
return;
}
/* New path is $HOME/.bimrc */
snprintf(path, 1024, "%s%s", home, tmp+1);
free(tmp);
tmp = strdup(path);
}
struct stat statbuf;
if (stat(tmp, &statbuf)) {
free(tmp);
return;
}
krk_runfile(tmp,tmp);
free(tmp);
}
static int checkClass(KrkClass * _class, KrkClass * base) {
while (_class) {
if (_class == base) return 1;
_class = _class->base;
}
return 0;
}
static KrkValue krk_bim_syntax_dict;
static KrkValue krk_bim_register_syntax(int argc, const KrkValue argv[], int hasKw) {
if (argc < 1 || !IS_CLASS(argv[0]) || !checkClass(AS_CLASS(argv[0]), syntaxStateClass))
return krk_runtimeError(vm.exceptions->typeError, "Can not register '%s' as a syntax highlighter, expected subclass of SyntaxState.", krk_typeName(argv[0]));
KrkValue name = krk_valueGetAttribute_default(argv[0], "name", NONE_VAL());
KrkValue extensions = krk_valueGetAttribute_default(argv[0], "extensions", NONE_VAL());
KrkValue spaces = krk_valueGetAttribute_default(argv[0], "spaces", BOOLEAN_VAL(0));
KrkValue calculate = krk_valueGetAttribute_default(argv[0], "calculate", NONE_VAL());
if (!IS_STRING(name))
return krk_runtimeError(vm.exceptions->typeError, "%s.name must be str", AS_CLASS(argv[0])->name->chars);
if (!IS_TUPLE(extensions))
return krk_runtimeError(vm.exceptions->typeError, "%s.extensions must be tuple<str>", AS_CLASS(argv[0])->name->chars);
if (!IS_BOOLEAN(spaces))
return krk_runtimeError(vm.exceptions->typeError, "%s.spaces must be bool", AS_CLASS(argv[0])->name->chars);
if (!IS_CLOSURE(calculate))
return krk_runtimeError(vm.exceptions->typeError, "%s.calculate must be method, not '%s'", AS_CLASS(argv[0])->name->chars, krk_typeName(calculate));
/* Convert tuple of strings */
char ** ext = malloc(sizeof(char *) * (AS_TUPLE(extensions)->values.count + 1)); /* +1 for NULL */
ext[AS_TUPLE(extensions)->values.count] = NULL;
for (size_t i = 0; i < AS_TUPLE(extensions)->values.count; ++i) {
if (!IS_STRING(AS_TUPLE(extensions)->values.values[i])) {
free(ext);
return krk_runtimeError(vm.exceptions->typeError, "%s.extensions must by tuple<str>", AS_CLASS(argv[0])->name->chars);
}
ext[i] = AS_CSTRING(AS_TUPLE(extensions)->values.values[i]);
}
add_syntax((struct syntax_definition) {
AS_CSTRING(name), /* name */
ext, /* NULL-terminated array of extensions */
NULL, /* calculate function */
AS_BOOLEAN(spaces), /* spaces */
NULL, /* qualifier */
NULL, /* matcher */
AS_OBJECT(calculate), /* krkFunc */
AS_OBJECT(argv[0]),
});
/* And save it in the module stuff. */
krk_tableSet(AS_DICT(krk_bim_syntax_dict), name, argv[0]);
return NONE_VAL();
}
static KrkValue krk_bim_theme_dict;
static KrkValue krk_bim_define_theme(int argc, const KrkValue argv[], int hasKw) {
if (argc < 1 || !IS_CLOSURE(argv[0]))
return krk_runtimeError(vm.exceptions->typeError, "themes must be functions, not '%s'", krk_typeName(argv[0]));
KrkValue name = OBJECT_VAL(AS_CLOSURE(argv[0])->function->name);
add_colorscheme((struct theme_def) {
AS_CSTRING(name),
AS_OBJECT(argv[0]),
});
krk_tableSet(AS_DICT(krk_bim_theme_dict), name, argv[0]);
return argv[0];
}
static int c_keyword_qualifier(int c) {
return isalnum(c) || (c == '_');
}
#define BIM_STATE() \
if (unlikely(argc < 1 || !krk_isInstanceOf(argv[0],syntaxStateClass))) return krk_runtimeError(vm.exceptions->typeError, "expected state"); \
KrkInstance * _self = AS_INSTANCE(argv[0]); \
struct SyntaxState * self = (struct SyntaxState*)_self; \
struct syntax_state * state = &self->state;
static KrkTuple * _bim_state_chars = NULL;
static KrkValue bim_krk_state_getstate(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
return INTEGER_VAL(state->state);
}
static KrkValue bim_krk_state_setstate(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
if (argc < 2 || !IS_INTEGER(argv[1])) return NONE_VAL();
state->state = AS_INTEGER(argv[1]);
return INTEGER_VAL(state->state);
}
static KrkValue bim_krk_state_index(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
return INTEGER_VAL(state->i);
}
static KrkValue bim_krk_state_lineno(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
return INTEGER_VAL(state->line_no);
}
static KrkValue bim_krk_state_get(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
/* non-slice item */
if (IS_INTEGER(argv[1])) {
long arg = AS_INTEGER(argv[1]);
int charRel = charrel(arg);
if (charRel == -1) return NONE_VAL();
if (charRel >= 32 && charRel <= 126) return _bim_state_chars->values.values[charRel - 32];
char tmp[8] = {0};
size_t len = to_eight(charRel, tmp);
return OBJECT_VAL(krk_copyString(tmp,len));
} else if (IS_slice(argv[1])) {
struct StringBuilder sb = {0};
extern int krk_extractSlicer(const char * _method_name, KrkValue slicerVal, krk_integer_type count, krk_integer_type *start, krk_integer_type *end, krk_integer_type *step);
krk_integer_type start, end, step;
if (krk_extractSlicer("__getitem__", argv[1], state->line->actual - state->i, &start, &end, &step)) {
return NONE_VAL();
}
krk_integer_type i = start;
while ((step < 0) ? (i > end) : (i < end)) {
int charRel = charrel(i);
if (charRel == -1) break;
char tmp[8] = {0};
size_t len = to_eight(charRel, tmp);
pushStringBuilderStr(&sb, tmp, len);
i += step;
}
return finishStringBuilder(&sb);
} else {
return krk_runtimeError(vm.exceptions->typeError, "%s() expects %s, not '%s'",
"__getitem__", "int or slice", krk_typeName(argv[1]));
}
}
static KrkValue bim_krk_state_isdigit(int argc, const KrkValue argv[], int hasKw) {
if (IS_NONE(argv[1])) return BOOLEAN_VAL(0);
if (!IS_STRING(argv[1])) {
krk_runtimeError(vm.exceptions->typeError, "not a string: %s", krk_typeName(argv[1]));
return BOOLEAN_VAL(0);
}
if (AS_STRING(argv[1])->codesLength > 1) {
krk_runtimeError(vm.exceptions->typeError, "arg must be str of len 1");
return BOOLEAN_VAL(0);
}
unsigned int c = krk_unicodeCodepoint(AS_STRING(argv[1]), 0);
return BOOLEAN_VAL(!!isdigit(c));
}
static KrkValue bim_krk_state_isxdigit(int argc, const KrkValue argv[], int hasKw) {
if (!IS_STRING(argv[1])) return BOOLEAN_VAL(0);
if (AS_STRING(argv[1])->length > 1) return BOOLEAN_VAL(0);
int c = AS_CSTRING(argv[1])[0];
return BOOLEAN_VAL(!!isxdigit(c));
}
static KrkValue bim_krk_state_paint(int argc, const KrkValue argv[], int hasKw) {
/* self.paint(count, color)
* or
* self[count] = color
*/
BIM_STATE();
long howMuch = AS_INTEGER(argv[1]);
if (howMuch == -1) howMuch = state->line->actual;
long whatFlag = AS_INTEGER(argv[2]);
paint(howMuch, whatFlag);
return NONE_VAL();
}
#define KRK_STRING_FAST(string,offset) (uint32_t)\
((string->obj.flags & KRK_OBJ_FLAGS_STRING_MASK) <= (KRK_OBJ_FLAGS_STRING_UCS1) ? ((uint8_t*)string->codes)[offset] : \
((string->obj.flags & KRK_OBJ_FLAGS_STRING_MASK) == (KRK_OBJ_FLAGS_STRING_UCS2) ? ((uint16_t*)string->codes)[offset] : \
((uint32_t*)string->codes)[offset]))
static KrkValue bim_krk_state_check(int argc, const KrkValue argv[], int hasKw) {
/* 'string' in self */
BIM_STATE();
int c = charrel(0);
if (IS_NONE(argv[1])) return BOOLEAN_VAL((c == -1));
if (!IS_STRING(argv[1])) return krk_runtimeError(vm.exceptions->typeError, "expected string");
KrkString * s = AS_STRING(argv[1]);
krk_unicodeString(s);
for (size_t i = 0; i < s->codesLength; ++i) {
int cp = (int)KRK_STRING_FAST(s,i);
if (c == cp) return BOOLEAN_VAL(1);
}
return BOOLEAN_VAL(0);
}
static KrkValue bim_krk_state_paintComment(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
paint_comment(state);
return NONE_VAL();
}
static KrkValue bim_krk_state_skip(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
skip();
return NONE_VAL();
}
static KrkValue bim_krk_state_cKeywordQualifier(int argc, const KrkValue argv[], int hasKw) {
if (IS_INTEGER(argv[0])) return BOOLEAN_VAL(!!c_keyword_qualifier(AS_INTEGER(argv[0])));
if (!IS_STRING(argv[0])) return BOOLEAN_VAL(0);
if (AS_STRING(argv[0])->length > 1) return BOOLEAN_VAL(0);
return BOOLEAN_VAL(!!c_keyword_qualifier(AS_CSTRING(argv[0])[0]));
}
static int callQualifier(KrkValue qualifier, int codepoint) {
if (IS_NATIVE(qualifier) && AS_NATIVE(qualifier)->function == bim_krk_state_cKeywordQualifier) return AS_BOOLEAN(!!c_keyword_qualifier(codepoint));
krk_push(qualifier);
krk_push(INTEGER_VAL(codepoint));
KrkValue result = krk_callStack(1);
if (IS_BOOLEAN(result)) return AS_BOOLEAN(result);
return 0;
}
static KrkValue bim_krk_state_findKeywords(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
if (unlikely(argc < 4 || !(IS_INSTANCE(argv[1]) && AS_INSTANCE(argv[1])->_class == vm.baseClasses->listClass) || !IS_INTEGER(argv[2])))
return krk_runtimeError(vm.exceptions->typeError, "invalid arguments to SyntaxState.findKeywords");
KrkValue qualifier = argv[3];
int flag = AS_INTEGER(argv[2]);
if (callQualifier(qualifier, lastchar())) return BOOLEAN_VAL(0);
if (!callQualifier(qualifier, charat())) return BOOLEAN_VAL(0);
for (size_t keyword = 0; keyword < AS_LIST(argv[1])->count; ++keyword) {
if (!IS_STRING(AS_LIST(argv[1])->values[keyword]))
return krk_runtimeError(vm.exceptions->typeError, "expected list of strings, found '%s'", krk_typeName(AS_LIST(argv[1])->values[keyword]));
KrkString * me = AS_STRING(AS_LIST(argv[1])->values[keyword]);
size_t d = 0;
if ((me->obj.flags & KRK_OBJ_FLAGS_STRING_MASK) == KRK_OBJ_FLAGS_STRING_ASCII) {
while (state->i + (int)d < state->line->actual &&
d < me->codesLength &&
state->line->text[state->i+d].codepoint == me->chars[d]) d++;
} else {
krk_unicodeString(me);
while (state->i + (int)d < state->line->actual &&
d < me->codesLength &&
state->line->text[state->i+d].codepoint == KRK_STRING_FAST(me,d)) d++;
}
if (d == me->codesLength && (state->i + (int)d >= state->line->actual ||
!callQualifier(qualifier,state->line->text[state->i+d].codepoint))) {
paint((int)me->codesLength, flag);
return BOOLEAN_VAL(1);
}
}
return BOOLEAN_VAL(0);
}
static KrkValue bim_krk_state_matchAndPaint(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
if (argc < 4 || !IS_STRING(argv[1]) || !IS_INTEGER(argv[2]))
return krk_runtimeError(vm.exceptions->typeError, "invalid arguments to SyntaxState.matchAndPaint");
KrkValue qualifier = argv[3];
int flag = AS_INTEGER(argv[2]);
KrkString * me = AS_STRING(argv[1]);
size_t d = 0;
if ((me->obj.flags & KRK_OBJ_FLAGS_STRING_MASK) == KRK_OBJ_FLAGS_STRING_ASCII) {
while (state->i + (int)d < state->line->actual &&
d < me->codesLength &&
state->line->text[state->i+d].codepoint == me->chars[d]) d++;
} else {
krk_unicodeString(me);
while (state->i + (int)d < state->line->actual &&
d < me->codesLength &&
state->line->text[state->i+d].codepoint == KRK_STRING_FAST(me,d)) d++;
}
if (d == me->codesLength && (state->i + (int)d >= state->line->actual ||
!callQualifier(qualifier,state->line->text[state->i+d].codepoint))) {
paint((int)me->codesLength, flag);
return BOOLEAN_VAL(1);
}
return BOOLEAN_VAL(0);
}
static KrkValue bim_krk_state_rewind(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
state->i -= AS_INTEGER(argv[1]);
return NONE_VAL();
}
static KrkValue bim_krk_state_commentBuzzwords(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
return BOOLEAN_VAL(common_comment_buzzwords(state));
}
static KrkValue bim_krk_state_init(int argc, const KrkValue argv[], int hasKw) {
BIM_STATE();
if (argc < 2 || !krk_isInstanceOf(argv[1], syntaxStateClass)) {
return krk_runtimeError(vm.exceptions->typeError, "Can only initialize subhighlighter from an existing highlighter.");
}
*state = ((struct SyntaxState*)AS_INSTANCE(argv[1]))->state;
return NONE_VAL();
}
static KrkValue krk_bim_get_commands(int argc, const KrkValue argv[], int hasKw) {
KrkValue myList = krk_list_of(0, NULL,0);
krk_push(myList);
for (struct command_def * c = regular_commands; regular_commands && c->name; ++c) {
krk_writeValueArray(AS_LIST(myList), OBJECT_VAL(krk_copyString(c->name,strlen(c->name))));
}
for (struct command_def * c = prefix_commands; prefix_commands && c->name; ++c) {
krk_writeValueArray(AS_LIST(myList), OBJECT_VAL(krk_copyString(c->name,strlen(c->name))));
}
return krk_pop();
}
KrkClass * ActionDef;
struct ActionDef {
KrkInstance inst;
struct action_def * action;
};
static KrkValue bim_krk_action_call(int argc, const KrkValue argv[], int hasKw) {
struct ActionDef * self = (void*)AS_OBJECT(argv[0]);
/* Figure out arguments */
int args = 0;
if (self->action->options & ARG_IS_CUSTOM) args++;
if (self->action->options & ARG_IS_INPUT) args++;
if (self->action->options & ARG_IS_PROMPT) args++;
int argsAsInts[3] = { 0, 0, 0 };
for (int i = 0; i < args; i++) {
if (argc < i + 2)
return krk_runtimeError(vm.exceptions->argumentError, "%s() takes %d argument%s",
self->action->name, args, args == 1 ? "" : "s");
if (IS_INTEGER(argv[i+1])) {
argsAsInts[i] = AS_INTEGER(argv[i+1]);
} else if (IS_STRING(argv[i+1]) && AS_STRING(argv[i+1])->codesLength == 1) {
argsAsInts[i] = krk_unicodeCodepoint(AS_STRING(argv[i+1]), 0);
} else if (IS_BOOLEAN(argv[i+1])) {
argsAsInts[i] = AS_BOOLEAN(argv[i+1]);
} else {
return krk_runtimeError(vm.exceptions->typeError,
"argument to %s() must be int, bool, or str of len 1",
self->action->name);
}
}
((action_three_arg)self->action->action)(argsAsInts[0], argsAsInts[1], argsAsInts[2]);
return NONE_VAL();
}
static KrkValue bim_krk_command_call(int argc, const KrkValue argv[], int hasKw) {
struct CommandDef * self = (void*)AS_OBJECT(argv[0]);
char ** args = malloc(sizeof(char*)*argc);
args[0] = strdup(self->command->name);
for (int i = 1; i < argc; ++i) {
if (IS_STRING(argv[i])) {
args[i] = strdup(AS_CSTRING(argv[i]));
} else {
krk_push(argv[i]);
KrkValue asString = krk_callDirect(krk_getType(argv[i])->_tostr, 1);
args[i] = strdup(AS_CSTRING(asString));
}
}
int result = self->command->command(args[0], argc, args);
for (int i = 0; i < argc; ++i) {
free(args[i]);
}
free(args);
return INTEGER_VAL(result);
}
static void makeClass(KrkInstance * module, KrkClass ** _class, const char * name, KrkClass * base) {
KrkString * str_Name = krk_copyString(name,strlen(name));
krk_push(OBJECT_VAL(str_Name));
*_class = krk_newClass(str_Name, base);
krk_push(OBJECT_VAL(*_class));
/* Bind it */
krk_attachNamedObject(&module->fields,name,(KrkObj*)*_class);
krk_pop();
krk_pop();
}
void import_directory(char * dirName) {
const char * extra = "";
char * dirpath = NULL;
char file[4096];
if (vm.binpath) {
char * tmp = strdup(vm.binpath);
dirpath = strdup(dirname(tmp));
extra = "/";
free(tmp);
sprintf(file, "%s/%s", dirpath, dirName);
} else {
sprintf(file, "%s", dirName);
}
DIR * dirp = opendir(file);
if (!dirp && dirpath) {
/* Try ../share/bim/dirName */
sprintf(file, "%s/../share/bim/%s", dirpath, dirName);
extra = "/../share/bim/";
dirp = opendir(file);
}
if (!dirp) {
/* Try /usr/share/bim */
if (dirpath) free(dirpath);
dirpath = strdup("/usr/share/bim");
sprintf(file, "%s/%s", dirpath, dirName);
extra = "/";
dirp = opendir(file);
}
if (!dirp) {
/* Try one last fallback */
if (dirpath) free(dirpath);
dirpath = strdup("/usr/local/share/bim");
sprintf(file, "%s/%s", dirpath, dirName);
extra = "/";
dirp = opendir(file);
}
if (!dirp) {
fprintf(stderr, "Could not find startup files: %s\n", dirName);
exit(1);
}
if (dirpath) {
/* get kuroko.module_paths */
krk_push(krk_valueGetAttribute(OBJECT_VAL(vm.system), "module_paths"));
krk_push(krk_valueGetAttribute(krk_peek(0), "insert"));
krk_push(INTEGER_VAL(0));
/* calculate dirpath + extra */
krk_push(OBJECT_VAL(krk_copyString(dirpath,strlen(dirpath))));
krk_push(OBJECT_VAL(krk_copyString(extra,strlen(extra))));
krk_addObjects();
krk_callStack(2); /* result value is popped */
krk_pop(); /* should just be the list */
}
if (dirpath) free(dirpath);
struct dirent * ent = readdir(dirp);
while (ent) {
if (str_ends_with(ent->d_name,".krk") && !str_ends_with(ent->d_name,"__init__.krk")) {
/* put "dir.file" onto the stack */
krk_push(OBJECT_VAL(krk_copyString(dirName,strlen(dirName))));
krk_push(OBJECT_VAL(S(".")));
krk_addObjects();
krk_push(OBJECT_VAL(krk_copyString(ent->d_name,strlen(ent->d_name)-4)));
krk_addObjects();
/* import that */
krk_doRecursiveModuleLoad(AS_STRING(krk_peek(0)));
if (krk_currentThread.flags & KRK_THREAD_HAS_EXCEPTION) {
krk_dumpTraceback();
render_error("The above exception was encountered while loading '%s/%s'.", dirName, ent->d_name);
if (global_config.has_terminal) {
/* Prompt to continue */
render_commandline_message("Continue loading modules? (y/N) ");
int key;
while ((key = bim_getkey(DEFAULT_KEY_WAIT)) == KEY_TIMEOUT);
if (key != 'y') {
krk_resetStack();
break;
}
} else {
render_error("Press ENTER to continue loading.");
int c;
while ((c = bim_getch(), c != ENTER_KEY && c != LINE_FEED));
}
}
/* reset the stack */
krk_resetStack();
}
ent = readdir(dirp);
}
closedir(dirp);
}
static void findBim(char * argv[]) {
/* Try asking /proc */
char * binpath = realpath("/proc/self/exe", NULL);
if (!binpath || (access(binpath, X_OK) != 0)) {
if (strchr(argv[0], '/')) {
binpath = realpath(argv[0], NULL);
} else {
/* Search PATH for argv[0] */
char * _path = strdup(getenv("PATH"));
char * path = _path;
while (path) {
char * next = strchr(path,':');
if (next) *next++ = '\0';
char tmp[4096];
sprintf(tmp, "%s/%s", path, argv[0]);
if (access(tmp, X_OK)) {
binpath = strdup(tmp);
break;
}
path = next;
}
free(_path);
}
}
if (binpath) {
vm.binpath = binpath;
} /* Else, give up at this point and just don't attach it at all. */
}
BIM_COMMAND(reload,"reload","Reloads all the Kuroko stuff.") {
/* Unload everything syntax-y */
KrkValue result = krk_interpret(
"if True:\n"
" import kuroko\n"
" for mod in kuroko.modules():\n"
" if mod.startswith('syntax.') or mod.startswith('themes.'):\n"
" kuroko.unload(mod)\n", "<bim>");
if (IS_NONE(result) && (krk_currentThread.flags & KRK_THREAD_HAS_EXCEPTION)) {
krk_dumpTraceback();
return 1;
}
/* Reload everything */
krk_resetStack();
krk_startModule("<bim-syntax>");
import_directory("syntax");
krk_startModule("<bim-themes>");
import_directory("themes");
krk_startModule("<bim-repl>");
/* Re-run the RC file */
load_bimrc();
krk_resetStack();
return 0;
}
static KrkValue krk_bim_getDocumentText(int argc, const KrkValue argv[], int hasKw) {
struct StringBuilder sb = {0};
int i, j;
for (i = 0; i < env->line_count; ++i) {
line_t * line = env->lines[i];
for (j = 0; j < line->actual; j++) {
char_t c = line->text[j];
if (c.codepoint == 0) {
pushStringBuilder(&sb, 0);
} else {
char tmp[8] = {0};
int len = to_eight(c.codepoint, tmp);
pushStringBuilderStr(&sb, tmp, len);
}
}
pushStringBuilder(&sb, '\n');
}
return finishStringBuilder(&sb);
}
static KrkValue krk_bim_renderError(int argc, const KrkValue argv[], int hasKw) {
static const char * _method_name = "renderError";
if (argc != 1 || !IS_STRING(argv[0])) return TYPE_ERROR(str,argv[0]);
if (AS_STRING(argv[0])->length == 0)
redraw_commandline();
else
render_error(AS_CSTRING(argv[0]));
return NONE_VAL();
}
KRK_Function(getDocumentFilename) {
if (!env || !env->file_name) return NONE_VAL();
return OBJECT_VAL(krk_copyString(env->file_name,strlen(env->file_name)));
}
static KrkValue krk_bim_custom_action_dict;
KRK_Function(bindkey) {
const char * key = NULL;
const char * mode = NULL;
KrkValue callable;
if (!krk_parseArgs("ssV", (const char*[]){"key","mode","callable"},
&key, &mode, &callable)) {
return NONE_VAL();
}
struct action_map ** mode_map = NULL;
for (struct mode_names * m = mode_names; m->name; ++m) {
if (!strcmp(m->name, mode)) {
mode_map = m->mode;
break;
}
}
if (!mode_map) return krk_runtimeError(vm.exceptions->valueError, "invalid mode: %s", mode);
enum Key keycode = key_from_name(key);
if (keycode == -1) return krk_runtimeError(vm.exceptions->valueError, "invalid key: %s", key);
struct action_map * candidate = NULL;
for (struct action_map * m = *mode_map; m->key != -1; ++m) {
if (m->key == keycode) {
candidate = m;
break;
}
}
if (!candidate) {
/* get size */
int len = 0;
for (struct action_map * m = *mode_map; m->key != -1; m++, len++);
*mode_map = realloc(*mode_map, sizeof(struct action_map) * (len + 2));
candidate = &(*mode_map)[len];
(*mode_map)[len+1].key = -1;
}
candidate->key = keycode;
candidate->options = opt_krk;
candidate->callable = callable;
return 0;
krk_tableSet(AS_DICT(krk_bim_custom_action_dict), callable, BOOLEAN_VAL(1));
return NONE_VAL();
}
/**
* Run global initialization tasks
*/
void initialize(void) {
/* Force empty locale */
#ifdef __APPLE__
/* TODO figure out a better way to do this; maybe just LC_CTYPE? */
setlocale(LC_ALL, "en_US.UTF-8");
#else
setlocale(LC_ALL, "");
#endif
/* Set up default key mappings */
#define CLONE_MAP(map) do { \
int len = 0, i = 0; \
for (struct action_map * m = _ ## map; m->key != -1; m++, len++); \
map = malloc(sizeof(struct action_map) * (len + 1)); \
for (struct action_map * m = _ ## map; m->key != -1; m++, i++) { \
memcpy(&map[i], m, sizeof(struct action_map)); \
} \
map[i].key = -1; \
} while (0)
CLONE_MAP(NORMAL_MAP);
CLONE_MAP(INSERT_MAP);
CLONE_MAP(REPLACE_MAP);
CLONE_MAP(LINE_SELECTION_MAP);
CLONE_MAP(CHAR_SELECTION_MAP);
CLONE_MAP(COL_SELECTION_MAP);
CLONE_MAP(COL_INSERT_MAP);
CLONE_MAP(NAVIGATION_MAP);
CLONE_MAP(ESCAPE_MAP);
CLONE_MAP(COMMAND_MAP);
CLONE_MAP(SEARCH_MAP);
CLONE_MAP(FILESEARCH_MAP);
CLONE_MAP(INPUT_BUFFER_MAP);
#undef CLONE_MAP
/* Simple ASCII defaults, but you could use " " as a config option */
global_config.tab_indicator = strdup(">");
global_config.space_indicator = strdup("-");
/* Initialize Kuroko runtime context */
krk_initVM(0);
/**
* Build the 'bim' module:
* @c bindHighlighter Applied to syntax highlighter classes to register them.
* @c getCommands Returns a list of bim command objects.
* @c themes dict, theme names to theme functions.
* @c defineTheme Applied to theme functions to register them.
* @c highlighters dict, syntax highlighter names to highlighter classes.
* @c getDocumentText Return a string with the full contents of the current buffer.
* @c renderError Binding to render_error.
*/
KrkInstance * bimModule = krk_newInstance(vm.baseClasses->moduleClass);
krk_attachNamedObject(&vm.modules, "bim", (KrkObj*)bimModule);
krk_attachNamedObject(&bimModule->fields, "__name__", (KrkObj*)S("bim"));
krk_defineNative(&bimModule->fields, "bindHighlighter", krk_bim_register_syntax);
krk_defineNative(&bimModule->fields, "getCommands", krk_bim_get_commands);
krk_bim_theme_dict = krk_dict_of(0,NULL,0);
krk_attachNamedValue(&bimModule->fields, "themes", krk_bim_theme_dict);
krk_defineNative(&bimModule->fields, "defineTheme", krk_bim_define_theme);
krk_bim_syntax_dict = krk_dict_of(0,NULL,0);
krk_attachNamedValue(&bimModule->fields, "highlighters", krk_bim_syntax_dict);
krk_defineNative(&bimModule->fields, "getDocumentText", krk_bim_getDocumentText);
krk_defineNative(&bimModule->fields, "renderError", krk_bim_renderError);
krk_bim_custom_action_dict = krk_dict_of(0,NULL,0);
krk_attachNamedValue(&bimModule->fields,"customActions", krk_bim_custom_action_dict);
BIND_FUNC(bimModule, bindkey);
BIND_FUNC(bimModule, getDocumentFilename);
/**
* Class representing a BIM_ACTION.
* Actions end up in __builtins__, which is dirty, but done for config reasons.
* Calling an action executes it.
*/
makeClass(bimModule, &ActionDef, "Action", vm.baseClasses->objectClass);
ActionDef->allocSize = sizeof(struct ActionDef);
krk_defineNative(&ActionDef->methods, "__call__", bim_krk_action_call);
krk_finalizeClass(ActionDef);
for (struct action_def * a = mappable_actions; mappable_actions && a->name; ++a) {
struct ActionDef * actionObj = (void*)krk_newInstance(ActionDef);
actionObj->action = a;
krk_attachNamedObject(&vm.builtins->fields, a->name, (KrkObj*)actionObj);
}
/* Class representing a BIM_COMMAND. Works the same as actions. */
makeClass(bimModule, &CommandDef, "Command", vm.baseClasses->objectClass);
CommandDef->allocSize = sizeof(struct CommandDef);
krk_defineNative(&CommandDef->methods, "__call__", bim_krk_command_call);
krk_finalizeClass(CommandDef);
/* For silly legacy config reasons, we have a special 'global' namespace
* that we just shove into __builtins__. This contains all of the command
* objects that are bound with names starting with "global.", naturally. */
KrkInstance * global = krk_newInstance(vm.baseClasses->objectClass);
krk_attachNamedObject(&vm.builtins->fields, "global", (KrkObj*)global);
for (struct command_def * c = regular_commands; regular_commands && c->name; ++c) {
struct CommandDef * commandObj = (void*)krk_newInstance(CommandDef);
commandObj->command = c;
if (strstr(c->name,"global.") == c->name) {
krk_attachNamedObject(&global->fields, c->name + 7, (KrkObj*)commandObj);
} else {
krk_attachNamedObject(&vm.builtins->fields, c->name, (KrkObj*)commandObj);
}
}
/**
* SyntaxState is the base class for syntax highlighters.
*
* @class SyntaxState
* @e Properties
* @b state Read-write access to the underlying state number (used for passing context between lines)
* @b i Read access to the offset into the line.
* @b lineno Read access to the line number of the line being highlighted.
*
* @e Methods
* @b findKeywords() Takes a list of keywords and highlights with a given flag based on a qualifier.
* @b isdigit() Determines if the argument character is a "digit" (0-9)
* @b isxdigit() Determines if the argument character is a "hex digit" (0-9, a-f, A-F)
* @b paint() Paints a number of character cells a given color and advances the highlighter.
* @b paintComment() Paints an end-of-line comment, with buzzword handling. Legacy convenience function.
* @b skip() Moves the highlighter forward one character cell without painting.
* @b matchAndPaint() Similar to @c findKeywords but only highlights one thing.
* @b commentBuzzwords() Detects and automatically highlights common comment buzzwords. Legacy convenience function.
* @b rewind() Rewinds the highlighter, moving it back to a previous character cell.
* @b __getitem__() Index into character cells of the current line from the highlighter.
* Note, negative indexes will reference cells before the 'cursor', but this
* does not apply to slicing, which treats the rest of the line (starting at the
* cursor) as a single string, thus -1 is the last character of the line.
* Indexing returns @c None rather than raising an IndexError if the requested
* character is out of range, similar to behavior of the C @c charrel interface.
* @e Flags
* These flags supply the C FLAG_ constants. Unfortunately, this is kinda slow, and
* it would be nice to have some sort of compile-time constant available so that these
* don't have to imply attribute lookups at runtime...
*/
makeClass(bimModule, &syntaxStateClass, "SyntaxState", vm.baseClasses->objectClass);
syntaxStateClass->allocSize = sizeof(struct SyntaxState);
krk_defineNativeProperty(&syntaxStateClass->methods, "state", bim_krk_state_getstate);
krk_defineNativeProperty(&syntaxStateClass->methods, "i", bim_krk_state_index);
krk_defineNativeProperty(&syntaxStateClass->methods, "lineno", bim_krk_state_lineno);
krk_defineNative(&syntaxStateClass->methods, "__init__", bim_krk_state_init);
krk_defineNative(&syntaxStateClass->methods, "findKeywords", bim_krk_state_findKeywords);
krk_defineNative(&syntaxStateClass->methods, "cKeywordQualifier", bim_krk_state_cKeywordQualifier)->obj.flags |= KRK_OBJ_FLAGS_FUNCTION_IS_STATIC_METHOD;
krk_defineNative(&syntaxStateClass->methods, "isdigit", bim_krk_state_isdigit);
krk_defineNative(&syntaxStateClass->methods, "isxdigit", bim_krk_state_isxdigit);
krk_defineNative(&syntaxStateClass->methods, "paint", bim_krk_state_paint);
krk_defineNative(&syntaxStateClass->methods, "paintComment", bim_krk_state_paintComment);
krk_defineNative(&syntaxStateClass->methods, "skip", bim_krk_state_skip);
krk_defineNative(&syntaxStateClass->methods, "matchAndPaint", bim_krk_state_matchAndPaint);
krk_defineNative(&syntaxStateClass->methods, "commentBuzzwords", bim_krk_state_commentBuzzwords);
krk_defineNative(&syntaxStateClass->methods, "rewind", bim_krk_state_rewind);
krk_defineNative(&syntaxStateClass->methods, "__getitem__", bim_krk_state_get);
krk_defineNative(&syntaxStateClass->methods, "__setitem__", bim_krk_state_paint);
krk_defineNative(&syntaxStateClass->methods, "__contains__", bim_krk_state_check);
krk_defineNative(&syntaxStateClass->methods, "__mod__", bim_krk_state_getstate);
krk_defineNative(&syntaxStateClass->methods, "__lshift__", bim_krk_state_setstate);
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_NONE", INTEGER_VAL(FLAG_NONE));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_KEYWORD", INTEGER_VAL(FLAG_KEYWORD));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_STRING", INTEGER_VAL(FLAG_STRING));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_COMMENT", INTEGER_VAL(FLAG_COMMENT));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_TYPE", INTEGER_VAL(FLAG_TYPE));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_PRAGMA", INTEGER_VAL(FLAG_PRAGMA));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_NUMERAL", INTEGER_VAL(FLAG_NUMERAL));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_ERROR", INTEGER_VAL(FLAG_ERROR));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_DIFFPLUS", INTEGER_VAL(FLAG_DIFFPLUS));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_DIFFMINUS", INTEGER_VAL(FLAG_DIFFMINUS));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_NOTICE", INTEGER_VAL(FLAG_NOTICE));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_BOLD", INTEGER_VAL(FLAG_BOLD));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_LINK", INTEGER_VAL(FLAG_LINK));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_ESCAPE", INTEGER_VAL(FLAG_ESCAPE));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_EXTRA", INTEGER_VAL(FLAG_EXTRA));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_SPECIAL", INTEGER_VAL(FLAG_SPECIAL));
krk_attachNamedValue(&syntaxStateClass->methods, "FLAG_UNDERLINE", INTEGER_VAL(FLAG_UNDERLINE));
/* This is a dumb cache of characters to avoid recreating them all the time */
_bim_state_chars = krk_newTuple(95);
krk_attachNamedObject(&syntaxStateClass->methods, "__chars__", (KrkObj*)_bim_state_chars);
for (int c = 0; c < 95; ++c) {
char tmp = c + 32;
_bim_state_chars->values.values[_bim_state_chars->values.count++] = OBJECT_VAL(krk_copyString(&tmp,1));
}
krk_finalizeClass(syntaxStateClass);
krk_resetStack();
krk_startModule("<bim-syntax>");
/* Try to import the shared object 'os' module. If we can't, try adjusting the module_paths to find it. */
const char * potential_search_paths[] = {"/usr/lib/kuroko/","/usr/local/lib/kuroko/","/lib/kuroko/",NULL};
const char ** next = potential_search_paths;
while (*next) {
KrkValue result = krk_interpret(
"try:\n"
" import os\n"
" return True\n"
"except:\n"
" return False\n", "<bim-syntax>");
if (IS_BOOLEAN(result) && AS_BOOLEAN(result)) break;
if (!access(*next, R_OK)) {
char snippet[1000];
snprintf(snippet, 1000,
"try:\n"
" import kuroko\n"
" if '%s' not in kuroko.module_paths:\n"
" kuroko.module_paths.append('%s')\n"
"except:\n"
" pass",
*next, *next);
krk_interpret(snippet, "<bim-syntax>");
}
next++;
}
import_directory("syntax");
krk_startModule("<bim-themes>");
import_directory("themes");
/* Start context for command line */
krk_startModule("<bim-repl>");
/* Load bimrc */
load_bimrc();
krk_resetStack();
/* Disable default traceback printing */
vm.globalFlags |= KRK_GLOBAL_CLEAN_OUTPUT;
/* Initialize space for buffers */
buffers_avail = 4;
buffers = malloc(sizeof(buffer_t *) * buffers_avail);
}
/**
* Initialize terminal for editor display.
*/
void init_terminal(void) {
if (!isatty(STDIN_FILENO) && isatty(STDOUT_FILENO)) {
global_config.tty_in = STDERR_FILENO;
}
set_alternate_screen();
set_bracketed_paste();
update_screen_size();
get_initial_termios();
set_unbuffered();
mouse_enable();
global_config.has_terminal = 1;
signal(SIGWINCH, SIGWINCH_handler);
signal(SIGCONT, SIGCONT_handler);
signal(SIGTSTP, SIGTSTP_handler);
signal(SIGINT, SIGINT_handler);
}
struct action_def * find_action(uintptr_t action) {
if (!action) return NULL;
for (int i = 0; i < flex_mappable_actions_count; ++i) {
if (action == mappable_actions[i].action) return &mappable_actions[i];
}
return NULL;
}
void dump_mapping(const char * description, struct action_map * map) {
printf("## %s\n", description);
printf("\n");
printf("| **Key** | **Action** | **Description** |\n");
printf("|---------|------------|-----------------|\n");
struct action_map * m = map;
while (m->key != -1) {
/* Find the name of this action */
struct action_def * action = find_action(m->method);
printf("| `%s` | `%s` | %s |\n", name_from_key(m->key),
action ? action->name : "(unbound)",
action ? action->description : "(unbound)");
m++;
}
printf("\n");
}
int sort_regular_commands(const void * a, const void * b) {
return strcmp(regular_commands[*(int *)a].name, regular_commands[*(int *)b].name);
}
int sort_prefix_commands(const void * a, const void * b) {
return strcmp(prefix_commands[*(int *)a].name, prefix_commands[*(int *)b].name);
}
void dump_commands(void) {
printf("## Regular Commands\n");
printf("\n");
printf("| **Command** | **Description** |\n");
printf("|-------------|-----------------|\n");
int * offsets = malloc(sizeof(int) * flex_regular_commands_count);
for (int i = 0; i < flex_regular_commands_count; ++i) {
offsets[i] = i;
}
qsort(offsets, flex_regular_commands_count, sizeof(int), sort_regular_commands);
for (int i = 0; i < flex_regular_commands_count; ++i) {
printf("| `:%s` | %s |\n", regular_commands[offsets[i]].name, regular_commands[offsets[i]].description);
}
free(offsets);
printf("\n");
printf("## Prefix Commands\n");
printf("\n");
printf("| **Command** | **Description** |\n");
printf("|-------------|-----------------|\n");
offsets = malloc(sizeof(int) * flex_prefix_commands_count);
for (int i = 0; i < flex_prefix_commands_count; ++i) offsets[i] = i;
qsort(offsets, flex_prefix_commands_count, sizeof(int), sort_prefix_commands);
for (int i = 0; i < flex_prefix_commands_count; ++i) {
printf("| `:%s...` | %s |\n", !strcmp(prefix_commands[offsets[i]].name, "`") ? "`(backtick)`" :
prefix_commands[offsets[i]].name, prefix_commands[offsets[i]].description);
}
free(offsets);
printf("\n");
}
BIM_COMMAND(whatis,"whatis","Describe actions bound to a key in different modes.") {
int key = 0;
if (argc < 2) {
render_commandline_message("(press a key)");
while ((key = bim_getkey(DEFAULT_KEY_WAIT)) == KEY_TIMEOUT);
} else if (strlen(argv[1]) > 1 && argv[1][0] == '^') {
/* See if it's a valid ctrl key */
if (argv[1][2] != '\0') {
goto _invalid_key_name;
}
if ((unsigned char)argv[1][1] < '@' || (unsigned char)argv[1][1] > '@' + '_') {
goto _invalid_key_name;
}
key = argv[1][1] - '@';
} else if (argv[1][1] != '\0') {
for (unsigned int i = 0; i < sizeof(KeyNames)/sizeof(KeyNames[0]); ++i) {
if (!strcmp(KeyNames[i].name,argv[1])) {
key = KeyNames[i].keycode;
}
}
if (!key) goto _invalid_key_name;
} else {
key = (unsigned char)argv[1][0];
}
struct MappingNames {
char * name;
struct action_map * map;
} maps[] = {
{"Normal", NORMAL_MAP},
{"Insert", INSERT_MAP},
{"Replace", REPLACE_MAP},
{"Line Selection", LINE_SELECTION_MAP},
{"Char Selection", CHAR_SELECTION_MAP},
{"Col Selection", COL_SELECTION_MAP},
{"Col Insert", COL_INSERT_MAP},
{"Navigation (Select)", NAVIGATION_MAP},
{"Escape (Select, Insert)", ESCAPE_MAP},
{"Command", COMMAND_MAP},
{"Search", SEARCH_MAP},
{"Input (Command, Search)", INPUT_BUFFER_MAP},
{NULL, NULL},
};
render_commandline_message("");
int found_something = 0;
for (struct MappingNames * map = maps; map->name; ++map) {
/* See if this key is mapped */
struct action_map * m = map->map;
while (m->key != -1) {
if (m->key == key) {
if (m->options & opt_krk) {
struct StringBuilder sb = {0};
krk_pushStringBuilderFormat(&sb, "%R", m->callable);
krk_pushStringBuilder(&sb, '\0');
render_commandline_message("%s: %s\n", map->name, sb.bytes);
krk_discardStringBuilder(&sb);
} else {
struct action_def * action = find_action(m->method);
render_commandline_message("%s: %s\n", map->name, action ? action->description : "(unmapped)");
found_something = 1;
}
break;
}
m++;
}
}
if (!found_something) {
render_commandline_message("Nothing bound for this key");
}
pause_for_key();
return 0;
_invalid_key_name:
render_error("Invalid key name");
return 1;
}
BIM_COMMAND(setcolor, "setcolor", "Set colorscheme colors") {
#define PRINT_COLOR do { \
render_commandline_message("%20s = ", c->name); \
set_colors(*c->value, *c->value); \
printf(" "); \
set_colors(COLOR_FG, COLOR_BG); \
printf(" %s\n", *c->value); \
} while (0)
if (argc < 2) {
/* Print colors */
struct ColorName * c = color_names;
while (c->name) {
PRINT_COLOR;
c++;
}
pause_for_key();
} else {
char * colorname = argv[1];
if (argc == 2) {
struct ColorName * c = color_names;
while (c->name) {
if (!strcmp(c->name, colorname)) {
PRINT_COLOR;
return 0;
}
c++;
}
render_error(":setcolor <colorname> <colorvalue>");
return 1;
}
char * colorvalue = argv[2];
struct ColorName * c = color_names;
while (c->name) {
if (!strcmp(c->name, colorname)) {
*(c->value) = strdup(colorvalue);
return 0;
}
c++;
}
render_error("Unknown color: %s", colorname);
return 1;
}
return 0;
#undef PRINT_COLOR
}
BIM_COMMAND(checkprop,"checkprop","Check a property value; returns the inverse of the property") {
if (argc < 2) {
return 1;
}
if (!strcmp(argv[1],"can_scroll")) return !global_config.can_scroll;
else if (!strcmp(argv[1],"can_hideshow")) return !global_config.can_hideshow;
else if (!strcmp(argv[1],"can_altscreen")) return !global_config.can_altscreen;
else if (!strcmp(argv[1],"can_mouse")) return !global_config.can_mouse;
else if (!strcmp(argv[1],"can_unicode")) return !global_config.can_unicode;
else if (!strcmp(argv[1],"can_bright")) return !global_config.can_bright;
else if (!strcmp(argv[1],"can_title")) return !global_config.can_title;
else if (!strcmp(argv[1],"can_bce")) return !global_config.can_bce;
else if (!strcmp(argv[1],"can_24bit")) return !global_config.can_24bit;
else if (!strcmp(argv[1],"can_256color")) return !global_config.can_256color;
else if (!strcmp(argv[1],"can_italic")) return !global_config.can_italic;
render_error("Unknown property '%s'", argv[1]);
return 1;
}
BIM_COMMAND(action,"action","Execute a bim action") {
if (argc < 2) {
render_error("Expected :action <action-name> [arg [arg [arg...]]]");
return 1;
}
/* Split argument on spaces */
char * action = argv[1];
char * arg1 = NULL, * arg2 = NULL, * arg3 = NULL;
if (argc > 2) arg1 = argv[2];
if (argc > 3) arg2 = argv[3];
if (argc > 4) arg3 = argv[4];
/* Find the action */
for (int i = 0; i < flex_mappable_actions_count; ++i) {
if (!strcmp(mappable_actions[i].name, action)) {
/* Count arguments */
int args = 0;
if (mappable_actions[i].options & ARG_IS_CUSTOM) args++;
if (mappable_actions[i].options & ARG_IS_INPUT) args++;
if (mappable_actions[i].options & ARG_IS_PROMPT) args++;
if (args == 0) {
((action_no_arg)mappable_actions[i].action)();
} else if (args == 1) {
if (!arg1) { render_error("Expected one argument"); return 1; }
((action_one_arg)mappable_actions[i].action)(atoi(arg1));
} else if (args == 2) {
if (!arg2) { render_error("Expected two arguments"); return 1; }
((action_two_arg)mappable_actions[i].action)(atoi(arg1), atoi(arg2));
} else if (args == 3) {
if (!arg3) { render_error("Expected three arguments"); return 1; }
((action_three_arg)mappable_actions[i].action)(atoi(arg1), atoi(arg2), atoi(arg3));
}
return 0;
}
}
render_error("Unknown action: %s", action);
return 1;
}
char * describe_options(int options) {
static char out[16];
memset(out,0,sizeof(out));
if (options & opt_rep) strcat(out,"r"); /* Repeats */
if (options & opt_arg) strcat(out,"a"); /* takes Argument */
if (options & opt_char) strcat(out,"c"); /* takes Character */
if (options & opt_nav) strcat(out,"n"); /* consumes Nav buffer */
if (options & opt_rw) strcat(out,"w"); /* read-Write */
if (options & opt_norm) strcat(out,"m"); /* changes Mode */
if (options & opt_byte) strcat(out,"b"); /* takes Byte */
return out;
}
void dump_map_commands(const char * name, struct action_map * map) {
struct action_map * m = map;
while (m->key != -1) {
if (m->options & opt_krk) {
fprintf(stdout,"# key %s bound in %s mode to a krk function",
name_from_key(m->key), name);
} else {
struct action_def * action = find_action(m->method);
fprintf(stdout,"mapkey %s %s %s",
name,
name_from_key(m->key),
action ? action->name : "none");
if (m->options) {
printf(" %s", describe_options(m->options));
if (m->options & opt_arg) {
printf(" %d", m->arg);
}
}
}
printf("\n");
m++;
}
}
BIM_COMMAND(mapkey,"mapkey","Map a key to an action.") {
if (argc < 2) goto _argument_error;
char * mode = argv[1];
char * key = strstr(mode," ");
if (!key) goto _argument_error;
*key = '\0';
key++;
char * action = strstr(key," ");
if (!action) goto _argument_error;
*action = '\0';
action++;
/* Options are optional */
char * options = strstr(action, " ");
char * arg = NULL;
if (options) {
*options = '\0';
options++;
arg = strstr(options, " ");
if (arg) {
*arg = '\0';
arg++;
}
}
render_status_message("Going to map key %s in mode %s to action %s with options %s, %s",
key, mode, action, options, arg);
/* Convert mode to mode name */
struct action_map ** mode_map = NULL;
for (struct mode_names * m = mode_names; m->name; ++m) {
if (!strcmp(m->name, mode)) {
mode_map = m->mode;
break;
}
}
if (!mode_map) {
render_error("invalid mode: %s", mode);
return 1;
}
enum Key keycode = key_from_name(key);
if (keycode == -1) {
render_error("invalid key: %s", key);
return 1;
}
struct action_def * action_def = NULL;
for (int i = 0; i < flex_mappable_actions_count; ++i) {
if (!strcmp(mappable_actions[i].name, action)) {
action_def = &mappable_actions[i];
break;
}
}
if (!action_def) {
render_error("invalid action: %s", action);
return 1;
}
/* Sanity check required options */
if ((action_def->options & ARG_IS_CUSTOM) &&
(!options || (!strchr(options,'a') && !strchr(options,'n')))) goto _action_sanity;
if ((action_def->options & ARG_IS_PROMPT) &&
(!options || (!strchr(options,'c') && !strchr(options,'b')))) goto _action_sanity;
if ((action_def->options & ACTION_IS_RW) &&
(!options || !strchr(options,'w'))) goto _action_sanity;
int option_map = 0;
if (options) {
for (char * o = options; *o; ++o) {
switch (*o) {
case 'r': option_map |= opt_rep; break;
case 'a': option_map |= opt_arg; break;
case 'c': option_map |= opt_char; break;
case 'n': option_map |= opt_nav; break;
case 'w': option_map |= opt_rw; break;
case 'm': option_map |= opt_norm; break;
case 'b': option_map |= opt_byte; break;
default:
render_error("Invalid option flag: %c", *o);
return 1;
}
}
}
if ((option_map & opt_arg) && !arg) {
render_error("flag 'a' requires an additional argument");
return 1;
}
int arg_value = (option_map & opt_arg) ? atoi(arg) : 0;
/* Make space */
struct action_map * candidate = NULL;
for (struct action_map * m = *mode_map; m->key != -1; ++m) {
if (m->key == keycode) {
candidate = m;
break;
}
}
if (!candidate) {
/* get size */
int len = 0;
for (struct action_map * m = *mode_map; m->key != -1; m++, len++);
*mode_map = realloc(*mode_map, sizeof(struct action_map) * (len + 2));
candidate = &(*mode_map)[len];
(*mode_map)[len+1].key = -1;
}
candidate->key = keycode;
candidate->method = action_def->action;
candidate->options = option_map;
candidate->arg = arg_value;
return 0;
_action_sanity:
render_error("action %s requires missing flag", action);
return 1;
_argument_error:
render_error("usage: mapkey MODE KEY ACTION [OPTIONS [ARG]]");
return 1;
}
int main(int argc, char * argv[]) {
findBim(argv);
int opt;
while ((opt = getopt(argc, argv, "?c:C:u:q:RS:O:-:")) != -1) {
switch (opt) {
case 'R':
global_config.initial_file_is_read_only = 1;
break;
case 'q':;
initialize();
global_config.use_biminfo = 0;
global_config.go_to_line = 0;
open_file(optarg);
env->loading = 1;
for (int i = 0; i < env->line_count; ++i) {
recalculate_syntax(env->lines[i], i);
}
return 0;
break;
case 'c':
case 'C':
/* Print file to stdout using our syntax highlighting and color theme */
initialize();
global_config.use_biminfo = 0;
global_config.go_to_line = 0;
open_file(optarg);
for (int i = 0; i < env->line_count; ++i) {
recalculate_syntax(env->lines[i], i);
if (opt == 'C') {
draw_line_number(i);
}
render_line(env->lines[i], 6 * (env->lines[i]->actual + 1), 0, -1);
reset();
fprintf(stdout, "\n");
}
return 0;
case 'u':
global_config.bimrc_path = optarg;
break;
case 'S':
global_config.syntax_fallback = optarg;
break;
case 'O':
/* Set various display options */
if (set_capability(optarg)) {
fprintf(stderr, "%s: unrecognized -O option: %s\n", argv[0], optarg);
return 1;
}
break;
case '-':
if (!strcmp(optarg,"version")) {
initialize(); /* Need to load bimrc to get themes */
update_screen_size(); /* Get terminal size if possible */
fprintf(stderr, "\033[1mbim\033[0m %s%s\n%s\n\n", BIM_VERSION, BIM_BUILD_DATE, BIM_COPYRIGHT);
#define SECTION(title) do { \
int x, width; \
width = 2 + display_width_of_string(title); \
fprintf(stderr, " \033[1m%s\033[0m:", title); \
x = width;
#define ENDSECTION() fprintf(stderr, "\n\n"); } while (0)
#define ITEM(str) do { \
int my_width = display_width_of_string(str); \
if (x + my_width + 1 >= global_config.term_width) { \
fprintf(stderr, "\n"); \
for (x = 0; x <= width; ++x) fprintf(stderr, " "); \
fprintf(stderr, "%s", str); \
x += width; \
} else { \
fprintf(stderr, " %s", str); \
x += my_width + 1; \
} } while(0)
SECTION("Syntax");
for (struct syntax_definition * s = syntaxes; syntaxes && s->name; ++s) {
ITEM(s->name);
}
ENDSECTION();
SECTION("Themes");
for (struct theme_def * d = themes; themes && d->name; ++d) {
ITEM(d->name);
}
ENDSECTION();
return 0;
} else if (!strcmp(optarg,"help")) {
show_usage(argv);
return 0;
} else if (!strcmp(optarg,"dump-mappings")) {
initialize();
for (struct mode_names * m = mode_names; m->name; ++m) {
dump_mapping(m->description, *m->mode);
}
return 0;
} else if (!strcmp(optarg,"dump-commands")) {
initialize();
dump_commands();
return 0;
} else if (!strcmp(optarg,"html")) {
if (optind >= argc) {
show_usage(argv);
return 1;
}
initialize();
global_config.go_to_line = 0;
open_file(argv[optind]);
for (int i = 0; i < env->line_count; ++i) {
recalculate_syntax(env->lines[i], i);
}
convert_to_html();
/* write to stdout */
output_file(env, stdout);
return 0;
} else if (!strcmp(optarg,"dump-config")) {
initialize();
/* Dump a config file representing the current key mappings */
for (struct mode_names * m = mode_names; m->name; ++m) {
dump_map_commands(m->name, *m->mode);
}
return 0;
} else if (strlen(optarg)) {
fprintf(stderr, "bim: unrecognized option `%s'\n", optarg);
return 1;
} /* Else, this is -- to indicate end of arguments */
break;
case '?':
show_usage(argv);
return 0;
}
}
/* Set up terminal */
initialize();
init_terminal();
/* Open file */
if (argc > optind) {
while (argc > optind) {
open_file(argv[optind]);
update_title();
if (global_config.initial_file_is_read_only) {
env->readonly = 1;
}
optind++;
}
env = buffers[0];
} else {
env = buffer_new();
setup_buffer(env);
}
update_title();
/* Draw the screen once */
redraw_all();
/* Start accepting key commands */
normal_mode();
return 0;
}