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/*
MIT License
Copyright (c) 2010-2020 nsf <no.smile.face@gmail.com>
2015-2024 Adam Saponara <as@php.net>
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
*/
#ifndef __TERMBOX_H
#define __TERMBOX_H
#ifndef _XOPEN_SOURCE
#define _XOPEN_SOURCE
#endif
#ifndef _DEFAULT_SOURCE
#define _DEFAULT_SOURCE
#endif
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <signal.h>
#include <stdarg.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/ioctl.h>
#include <sys/select.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <sys/types.h>
#include <termios.h>
#include <unistd.h>
#include <wchar.h>
#ifdef PATH_MAX
#define TB_PATH_MAX PATH_MAX
#else
#define TB_PATH_MAX 4096
#endif
#ifdef __cplusplus
extern "C" {
#endif
// __ffi_start
#define TB_VERSION_STR "2.5.0-dev"
/* The following compile-time options are supported:
*
* TB_OPT_ATTR_W: Integer width of fg and bg attributes. Valid values
* (assuming system support) are 16, 32, and 64. (See
* uintattr_t). 32 or 64 enables output mode
* TB_OUTPUT_TRUECOLOR. 64 enables additional style
* attributes. (See tb_set_output_mode.) Larger values
* consume more memory in exchange for more features.
* Defaults to 16.
*
* TB_OPT_EGC: If set, enable extended grapheme cluster support
* (tb_extend_cell, tb_set_cell_ex). Consumes more memory.
* Defaults off.
*
* TB_OPT_PRINTF_BUF: Write buffer size for printf operations. Represents the
* largest string that can be sent in one call to tb_print*
* and tb_send* functions. Defaults to 4096.
*
* TB_OPT_READ_BUF: Read buffer size for tty reads. Defaults to 64.
*
* TB_OPT_TRUECOLOR: Deprecated. Sets TB_OPT_ATTR_W to 32 if not already set.
*/
#if defined(TB_LIB_OPTS) || 0 // __tb_lib_opts
// Ensure consistent compile-time options when using as a shared library
#undef TB_OPT_ATTR_W
#undef TB_OPT_EGC
#undef TB_OPT_PRINTF_BUF
#undef TB_OPT_READ_BUF
#define TB_OPT_ATTR_W 64
#define TB_OPT_EGC
#endif
// Ensure sane TB_OPT_ATTR_W (16, 32, or 64)
#if defined TB_OPT_ATTR_W && TB_OPT_ATTR_W == 16
#elif defined TB_OPT_ATTR_W && TB_OPT_ATTR_W == 32
#elif defined TB_OPT_ATTR_W && TB_OPT_ATTR_W == 64
#else
#undef TB_OPT_ATTR_W
#if defined TB_OPT_TRUECOLOR // Back-compat for old flag
#define TB_OPT_ATTR_W 32
#else
#define TB_OPT_ATTR_W 16
#endif
#endif
/* ASCII key constants (tb_event.key) */
#define TB_KEY_CTRL_TILDE 0x00
#define TB_KEY_CTRL_2 0x00 /* clash with 'CTRL_TILDE' */
#define TB_KEY_CTRL_A 0x01
#define TB_KEY_CTRL_B 0x02
#define TB_KEY_CTRL_C 0x03
#define TB_KEY_CTRL_D 0x04
#define TB_KEY_CTRL_E 0x05
#define TB_KEY_CTRL_F 0x06
#define TB_KEY_CTRL_G 0x07
#define TB_KEY_BACKSPACE 0x08
#define TB_KEY_CTRL_H 0x08 /* clash with 'CTRL_BACKSPACE' */
#define TB_KEY_TAB 0x09
#define TB_KEY_CTRL_I 0x09 /* clash with 'TAB' */
#define TB_KEY_CTRL_J 0x0a
#define TB_KEY_CTRL_K 0x0b
#define TB_KEY_CTRL_L 0x0c
#define TB_KEY_ENTER 0x0d
#define TB_KEY_CTRL_M 0x0d /* clash with 'ENTER' */
#define TB_KEY_CTRL_N 0x0e
#define TB_KEY_CTRL_O 0x0f
#define TB_KEY_CTRL_P 0x10
#define TB_KEY_CTRL_Q 0x11
#define TB_KEY_CTRL_R 0x12
#define TB_KEY_CTRL_S 0x13
#define TB_KEY_CTRL_T 0x14
#define TB_KEY_CTRL_U 0x15
#define TB_KEY_CTRL_V 0x16
#define TB_KEY_CTRL_W 0x17
#define TB_KEY_CTRL_X 0x18
#define TB_KEY_CTRL_Y 0x19
#define TB_KEY_CTRL_Z 0x1a
#define TB_KEY_ESC 0x1b
#define TB_KEY_CTRL_LSQ_BRACKET 0x1b /* clash with 'ESC' */
#define TB_KEY_CTRL_3 0x1b /* clash with 'ESC' */
#define TB_KEY_CTRL_4 0x1c
#define TB_KEY_CTRL_BACKSLASH 0x1c /* clash with 'CTRL_4' */
#define TB_KEY_CTRL_5 0x1d
#define TB_KEY_CTRL_RSQ_BRACKET 0x1d /* clash with 'CTRL_5' */
#define TB_KEY_CTRL_6 0x1e
#define TB_KEY_CTRL_7 0x1f
#define TB_KEY_CTRL_SLASH 0x1f /* clash with 'CTRL_7' */
#define TB_KEY_CTRL_UNDERSCORE 0x1f /* clash with 'CTRL_7' */
#define TB_KEY_SPACE 0x20
#define TB_KEY_BACKSPACE2 0x7f
#define TB_KEY_CTRL_8 0x7f /* clash with 'BACKSPACE2' */
#define tb_key_i(i) 0xffff - (i)
/* Terminal-dependent key constants (tb_event.key) and terminfo capabilities */
/* BEGIN codegen h */
/* Produced by ./codegen.sh on Thu, 13 Jul 2023 05:46:13 +0000 */
#define TB_KEY_F1 (0xffff - 0)
#define TB_KEY_F2 (0xffff - 1)
#define TB_KEY_F3 (0xffff - 2)
#define TB_KEY_F4 (0xffff - 3)
#define TB_KEY_F5 (0xffff - 4)
#define TB_KEY_F6 (0xffff - 5)
#define TB_KEY_F7 (0xffff - 6)
#define TB_KEY_F8 (0xffff - 7)
#define TB_KEY_F9 (0xffff - 8)
#define TB_KEY_F10 (0xffff - 9)
#define TB_KEY_F11 (0xffff - 10)
#define TB_KEY_F12 (0xffff - 11)
#define TB_KEY_INSERT (0xffff - 12)
#define TB_KEY_DELETE (0xffff - 13)
#define TB_KEY_HOME (0xffff - 14)
#define TB_KEY_END (0xffff - 15)
#define TB_KEY_PGUP (0xffff - 16)
#define TB_KEY_PGDN (0xffff - 17)
#define TB_KEY_ARROW_UP (0xffff - 18)
#define TB_KEY_ARROW_DOWN (0xffff - 19)
#define TB_KEY_ARROW_LEFT (0xffff - 20)
#define TB_KEY_ARROW_RIGHT (0xffff - 21)
#define TB_KEY_BACK_TAB (0xffff - 22)
#define TB_KEY_MOUSE_LEFT (0xffff - 23)
#define TB_KEY_MOUSE_RIGHT (0xffff - 24)
#define TB_KEY_MOUSE_MIDDLE (0xffff - 25)
#define TB_KEY_MOUSE_RELEASE (0xffff - 26)
#define TB_KEY_MOUSE_WHEEL_UP (0xffff - 27)
#define TB_KEY_MOUSE_WHEEL_DOWN (0xffff - 28)
#define TB_CAP_F1 0
#define TB_CAP_F2 1
#define TB_CAP_F3 2
#define TB_CAP_F4 3
#define TB_CAP_F5 4
#define TB_CAP_F6 5
#define TB_CAP_F7 6
#define TB_CAP_F8 7
#define TB_CAP_F9 8
#define TB_CAP_F10 9
#define TB_CAP_F11 10
#define TB_CAP_F12 11
#define TB_CAP_INSERT 12
#define TB_CAP_DELETE 13
#define TB_CAP_HOME 14
#define TB_CAP_END 15
#define TB_CAP_PGUP 16
#define TB_CAP_PGDN 17
#define TB_CAP_ARROW_UP 18
#define TB_CAP_ARROW_DOWN 19
#define TB_CAP_ARROW_LEFT 20
#define TB_CAP_ARROW_RIGHT 21
#define TB_CAP_BACK_TAB 22
#define TB_CAP__COUNT_KEYS 23
#define TB_CAP_ENTER_CA 23
#define TB_CAP_EXIT_CA 24
#define TB_CAP_SHOW_CURSOR 25
#define TB_CAP_HIDE_CURSOR 26
#define TB_CAP_CLEAR_SCREEN 27
#define TB_CAP_SGR0 28
#define TB_CAP_UNDERLINE 29
#define TB_CAP_BOLD 30
#define TB_CAP_BLINK 31
#define TB_CAP_ITALIC 32
#define TB_CAP_REVERSE 33
#define TB_CAP_ENTER_KEYPAD 34
#define TB_CAP_EXIT_KEYPAD 35
#define TB_CAP_DIM 36
#define TB_CAP_INVISIBLE 37
#define TB_CAP__COUNT 38
/* END codegen h */
/* Some hard-coded caps */
#define TB_HARDCAP_ENTER_MOUSE "\x1b[?1000h\x1b[?1002h\x1b[?1015h\x1b[?1006h"
#define TB_HARDCAP_EXIT_MOUSE "\x1b[?1006l\x1b[?1015l\x1b[?1002l\x1b[?1000l"
#define TB_HARDCAP_STRIKEOUT "\x1b[9m"
#define TB_HARDCAP_UNDERLINE_2 "\x1b[21m"
#define TB_HARDCAP_OVERLINE "\x1b[53m"
/* Colors (numeric) and attributes (bitwise) (tb_cell.fg, tb_cell.bg) */
#define TB_DEFAULT 0x0000
#define TB_BLACK 0x0001
#define TB_RED 0x0002
#define TB_GREEN 0x0003
#define TB_YELLOW 0x0004
#define TB_BLUE 0x0005
#define TB_MAGENTA 0x0006
#define TB_CYAN 0x0007
#define TB_WHITE 0x0008
#if TB_OPT_ATTR_W == 16
#define TB_BOLD 0x0100
#define TB_UNDERLINE 0x0200
#define TB_REVERSE 0x0400
#define TB_ITALIC 0x0800
#define TB_BLINK 0x1000
#define TB_HI_BLACK 0x2000
#define TB_BRIGHT 0x4000
#define TB_DIM 0x8000
#define TB_256_BLACK TB_HI_BLACK // TB_256_BLACK is deprecated
#else // 32 or 64
#define TB_BOLD 0x01000000
#define TB_UNDERLINE 0x02000000
#define TB_REVERSE 0x04000000
#define TB_ITALIC 0x08000000
#define TB_BLINK 0x10000000
#define TB_HI_BLACK 0x20000000
#define TB_BRIGHT 0x40000000
#define TB_DIM 0x80000000
#define TB_TRUECOLOR_BOLD TB_BOLD // TB_TRUECOLOR_* is deprecated
#define TB_TRUECOLOR_UNDERLINE TB_UNDERLINE
#define TB_TRUECOLOR_REVERSE TB_REVERSE
#define TB_TRUECOLOR_ITALIC TB_ITALIC
#define TB_TRUECOLOR_BLINK TB_BLINK
#define TB_TRUECOLOR_BLACK TB_HI_BLACK
#endif
#if TB_OPT_ATTR_W == 64
#define TB_STRIKEOUT 0x0000000100000000
#define TB_UNDERLINE_2 0x0000000200000000
#define TB_OVERLINE 0x0000000400000000
#define TB_INVISIBLE 0x0000000800000000
#endif
/* Event types (tb_event.type) */
#define TB_EVENT_KEY 1
#define TB_EVENT_RESIZE 2
#define TB_EVENT_MOUSE 3
/* Key modifiers (bitwise) (tb_event.mod) */
#define TB_MOD_ALT 1
#define TB_MOD_CTRL 2
#define TB_MOD_SHIFT 4
#define TB_MOD_MOTION 8
/* Input modes (bitwise) (tb_set_input_mode) */
#define TB_INPUT_CURRENT 0
#define TB_INPUT_ESC 1
#define TB_INPUT_ALT 2
#define TB_INPUT_MOUSE 4
/* Output modes (tb_set_output_mode) */
#define TB_OUTPUT_CURRENT 0
#define TB_OUTPUT_NORMAL 1
#define TB_OUTPUT_256 2
#define TB_OUTPUT_216 3
#define TB_OUTPUT_GRAYSCALE 4
#if TB_OPT_ATTR_W >= 32
#define TB_OUTPUT_TRUECOLOR 5
#endif
/* Common function return values unless otherwise noted.
*
* Library behavior is undefined after receiving TB_ERR_MEM. Callers may
* attempt reinitializing by freeing memory, invoking tb_shutdown, then
* tb_init.
*/
#define TB_OK 0
#define TB_ERR -1
#define TB_ERR_NEED_MORE -2
#define TB_ERR_INIT_ALREADY -3
#define TB_ERR_INIT_OPEN -4
#define TB_ERR_MEM -5
#define TB_ERR_NO_EVENT -6
#define TB_ERR_NO_TERM -7
#define TB_ERR_NOT_INIT -8
#define TB_ERR_OUT_OF_BOUNDS -9
#define TB_ERR_READ -10
#define TB_ERR_RESIZE_IOCTL -11
#define TB_ERR_RESIZE_PIPE -12
#define TB_ERR_RESIZE_SIGACTION -13
#define TB_ERR_POLL -14
#define TB_ERR_TCGETATTR -15
#define TB_ERR_TCSETATTR -16
#define TB_ERR_UNSUPPORTED_TERM -17
#define TB_ERR_RESIZE_WRITE -18
#define TB_ERR_RESIZE_POLL -19
#define TB_ERR_RESIZE_READ -20
#define TB_ERR_RESIZE_SSCANF -21
#define TB_ERR_CAP_COLLISION -22
#define TB_ERR_SELECT TB_ERR_POLL
#define TB_ERR_RESIZE_SELECT TB_ERR_RESIZE_POLL
/* Function types to be used with tb_set_func() */
#define TB_FUNC_EXTRACT_PRE 0
#define TB_FUNC_EXTRACT_POST 1
/* Define this to set the size of the buffer used in tb_printf()
* and tb_sendf()
*/
#ifndef TB_OPT_PRINTF_BUF
#define TB_OPT_PRINTF_BUF 4096
#endif
/* Define this to set the size of the read buffer used when reading
* from the tty
*/
#ifndef TB_OPT_READ_BUF
#define TB_OPT_READ_BUF 64
#endif
/* Define this for limited back compat with termbox v1 */
#ifdef TB_OPT_V1_COMPAT
#define tb_change_cell tb_set_cell
#define tb_put_cell(x, y, c) tb_set_cell((x), (y), (c)->ch, (c)->fg, (c)->bg)
#define tb_set_clear_attributes tb_set_clear_attrs
#define tb_select_input_mode tb_set_input_mode
#define tb_select_output_mode tb_set_output_mode
#endif
/* Define these to swap in a different allocator */
#ifndef tb_malloc
#define tb_malloc malloc
#define tb_realloc realloc
#define tb_free free
#endif
#if TB_OPT_ATTR_W == 64
typedef uint64_t uintattr_t;
#elif TB_OPT_ATTR_W == 32
typedef uint32_t uintattr_t;
#else // 16
typedef uint16_t uintattr_t;
#endif
/* The terminal screen is represented as 2d array of cells. The structure is
* optimized for dealing with single-width (wcwidth()==1) Unicode codepoints,
* however some support for grapheme clusters (e.g., combining diacritical
* marks) and wide codepoints (e.g., Hiragana) is provided through ech, nech,
* cech via tb_set_cell_ex(). ech is only valid when nech>0, otherwise ch is
* used.
*
* For non-single-width codepoints, given N=wcwidth(ch)/wcswidth(ech):
*
* when N==0: termbox forces a single-width cell. Callers should avoid this
* if aiming to render text accurately.
*
* when N>1: termbox zeroes out the following N-1 cells and skips sending
* them to the tty. So, e.g., if the caller sets x=0,y=0 to an N==2
* codepoint, the caller's next set should be at x=2,y=0. Anything
* set at x=1,y=0 will be ignored. If there are not enough columns
* remaining on the line to render N width, spaces are sent
* instead.
*
* See tb_present() for implementation.
*/
struct tb_cell {
uint32_t ch; /* a Unicode codepoint */
uintattr_t fg; /* bitwise foreground attributes */
uintattr_t bg; /* bitwise background attributes */
#ifdef TB_OPT_EGC
uint32_t *ech; /* a grapheme cluster of Unicode codepoints, 0-terminated */
size_t nech; /* num elements in ech, 0 means use ch instead of ech */
size_t cech; /* num elements allocated for ech */
#endif
};
/* An incoming event from the tty.
*
* Given the event type, the following fields are relevant:
*
* when TB_EVENT_KEY: (key XOR ch, one will be zero), mod. Note there is
* overlap between TB_MOD_CTRL and TB_KEY_CTRL_*.
* TB_MOD_CTRL and TB_MOD_SHIFT are only set as
* modifiers to TB_KEY_ARROW_*.
*
* when TB_EVENT_RESIZE: w, h
*
* when TB_EVENT_MOUSE: key (TB_KEY_MOUSE_*), x, y
*/
struct tb_event {
uint8_t type; /* one of TB_EVENT_* constants */
uint8_t mod; /* bitwise TB_MOD_* constants */
uint16_t key; /* one of TB_KEY_* constants */
uint32_t ch; /* a Unicode codepoint */
int32_t w; /* resize width */
int32_t h; /* resize height */
int32_t x; /* mouse x */
int32_t y; /* mouse y */
};
/* Initializes the termbox library. This function should be called before any
* other functions. tb_init() is equivalent to tb_init_file("/dev/tty"). After
* successful initialization, the library must be finalized using the
* tb_shutdown() function.
*/
int tb_init(void);
int tb_init_file(const char *path);
int tb_init_fd(int ttyfd);
int tb_init_rwfd(int rfd, int wfd);
int tb_shutdown(void);
/* Returns the size of the internal back buffer (which is the same as terminal's
* window size in rows and columns). The internal buffer can be resized after
* tb_clear() or tb_present() function calls. Both dimensions have an
* unspecified negative value when called before tb_init() or after
* tb_shutdown().
*/
int tb_width(void);
int tb_height(void);
/* Clears the internal back buffer using TB_DEFAULT color or the
* color/attributes set by tb_set_clear_attrs() function.
*/
int tb_clear(void);
int tb_set_clear_attrs(uintattr_t fg, uintattr_t bg);
/* Synchronizes the internal back buffer with the terminal by writing to tty. */
int tb_present(void);
/* Clears the internal front buffer effectively forcing a complete re-render of
* the back buffer to the tty. It is not necessary to call this under normal
* circumstances. */
int tb_invalidate(void);
/* Sets the position of the cursor. Upper-left character is (0, 0). */
int tb_set_cursor(int cx, int cy);
int tb_hide_cursor(void);
/* Set cell contents in the internal back buffer at the specified position.
*
* Use tb_set_cell_ex() for rendering grapheme clusters (e.g., combining
* diacritical marks).
*
* Function tb_set_cell(x, y, ch, fg, bg) is equivalent to
* tb_set_cell_ex(x, y, &ch, 1, fg, bg).
*
* Function tb_extend_cell() is a shortcut for appending 1 codepoint to
* cell->ech.
*/
int tb_set_cell(int x, int y, uint32_t ch, uintattr_t fg, uintattr_t bg);
int tb_set_cell_ex(int x, int y, uint32_t *ch, size_t nch, uintattr_t fg,
uintattr_t bg);
int tb_extend_cell(int x, int y, uint32_t ch);
/* Sets the input mode. Termbox has two input modes:
*
* 1. TB_INPUT_ESC
* When escape (\x1b) is in the buffer and there's no match for an escape
* sequence, a key event for TB_KEY_ESC is returned.
*
* 2. TB_INPUT_ALT
* When escape (\x1b) is in the buffer and there's no match for an escape
* sequence, the next keyboard event is returned with a TB_MOD_ALT modifier.
*
* You can also apply TB_INPUT_MOUSE via bitwise OR operation to either of the
* modes (e.g., TB_INPUT_ESC | TB_INPUT_MOUSE) to receive TB_EVENT_MOUSE events.
* If none of the main two modes were set, but the mouse mode was, TB_INPUT_ESC
* mode is used. If for some reason you've decided to use
* (TB_INPUT_ESC | TB_INPUT_ALT) combination, it will behave as if only
* TB_INPUT_ESC was selected.
*
* If mode is TB_INPUT_CURRENT, the function returns the current input mode.
*
* The default input mode is TB_INPUT_ESC.
*/
int tb_set_input_mode(int mode);
/* Sets the termbox output mode. Termbox has multiple output modes:
*
* 1. TB_OUTPUT_NORMAL => [0..8]
*
* This mode provides 8 different colors:
* TB_BLACK, TB_RED, TB_GREEN, TB_YELLOW,
* TB_BLUE, TB_MAGENTA, TB_CYAN, TB_WHITE
*
* Plus TB_DEFAULT which skips sending a color code (i.e., uses the
* terminal's default color).
*
* Colors (including TB_DEFAULT) may be bitwise OR'd with attributes:
* TB_BOLD, TB_UNDERLINE, TB_REVERSE, TB_ITALIC, TB_BLINK, TB_BRIGHT,
* TB_DIM
*
* The following style attributes are also available if compiled with
* TB_OPT_ATTR_W set to 64:
* TB_STRIKEOUT, TB_UNDERLINE_2, TB_OVERLINE, TB_INVISIBLE
*
* As in all modes, the value 0 is interpreted as TB_DEFAULT for
* convenience.
*
* Some notes: TB_REVERSE can be applied as either fg or bg attributes for
* the same effect. TB_BRIGHT can be applied to either fg or bg. The rest of
* the attributes apply to fg only and are ignored as bg attributes.
*
* Example usage:
* tb_set_cell(x, y, '@', TB_BLACK | TB_BOLD, TB_RED);
*
* 2. TB_OUTPUT_256 => [0..255] + TB_HI_BLACK
*
* In this mode you get 256 distinct colors (plus default):
* 0x00 (1): TB_DEFAULT
* TB_HI_BLACK (1): TB_BLACK in TB_OUTPUT_NORMAL
* 0x01..0x07 (7): the next 7 colors as in TB_OUTPUT_NORMAL
* 0x08..0x0f (8): bright versions of the above
* 0x10..0xe7 (216): 216 different colors
* 0xe8..0xff (24): 24 different shades of gray
*
* All TB_* style attributes except TB_BRIGHT may be bitwise OR'd as in
* TB_OUTPUT_NORMAL.
*
* Note TB_HI_BLACK must be used for black, as 0x00 represents default.
*
* 3. TB_OUTPUT_216 => [0..216]
*
* This mode supports the 216-color range of TB_OUTPUT_256 only, but you
* don't need to provide an offset:
* 0x00 (1): TB_DEFAULT
* 0x01..0xd8 (216): 216 different colors
*
* 4. TB_OUTPUT_GRAYSCALE => [0..24]
*
* This mode supports the 24-color range of TB_OUTPUT_256 only, but you
* don't need to provide an offset:
* 0x00 (1): TB_DEFAULT
* 0x01..0x18 (24): 24 different shades of gray
*
* 5. TB_OUTPUT_TRUECOLOR => [0x000000..0xffffff] + TB_HI_BLACK
*
* This mode provides 24-bit color on supported terminals. The format is
* 0xRRGGBB.
*
* All TB_* style attributes except TB_BRIGHT may be bitwise OR'd as in
* TB_OUTPUT_NORMAL.
*
* Note TB_HI_BLACK must be used for black, as 0x000000 represents default.
*
* If mode is TB_OUTPUT_CURRENT, the function returns the current output mode.
*
* The default output mode is TB_OUTPUT_NORMAL.
*
* To use the terminal default color (i.e., to not send an escape code), pass
* TB_DEFAULT. For convenience, the value 0 is interpreted as TB_DEFAULT in
* all modes.
*
* Note, cell attributes persist after switching output modes. Any translation
* between, for example, TB_OUTPUT_NORMAL's TB_RED and TB_OUTPUT_TRUECOLOR's
* 0xff0000 must be performed by the caller. Also note that cells previously
* rendered in one mode may persist unchanged until the front buffer is cleared
* (such as after a resize event) at which point it will be re-interpreted and
* flushed according to the current mode. Callers may invoke tb_invalidate if
* it is desirable to immediately re-interpret and flush the entire screen
* according to the current mode.
*
* Note, not all terminals support all output modes, especially beyond
* TB_OUTPUT_NORMAL. There is also no very reliable way to determine color
* support dynamically. If portability is desired, callers are recommended to
* use TB_OUTPUT_NORMAL or make output mode end-user configurable. The same
* advice applies to style attributes.
*/
int tb_set_output_mode(int mode);
/* Wait for an event up to timeout_ms milliseconds and fill the event structure
* with it. If no event is available within the timeout period, TB_ERR_NO_EVENT
* is returned. On a resize event, the underlying select(2) call may be
* interrupted, yielding a return code of TB_ERR_POLL. In this case, you may
* check errno via tb_last_errno(). If it's EINTR, you can safely ignore that
* and call tb_peek_event() again.
*/
int tb_peek_event(struct tb_event *event, int timeout_ms);
/* Same as tb_peek_event except no timeout. */
int tb_poll_event(struct tb_event *event);
/* Internal termbox FDs that can be used with poll() / select(). Must call
* tb_poll_event() / tb_peek_event() if activity is detected. */
int tb_get_fds(int *ttyfd, int *resizefd);
/* Print and printf functions. Specify param out_w to determine width of printed
* string. Incomplete trailing UTF-8 byte sequences are replaced with U+FFFD.
* For finer control, use tb_set_cell().
*/
int tb_print(int x, int y, uintattr_t fg, uintattr_t bg, const char *str);
int tb_printf(int x, int y, uintattr_t fg, uintattr_t bg, const char *fmt, ...);
int tb_print_ex(int x, int y, uintattr_t fg, uintattr_t bg, size_t *out_w,
const char *str);
int tb_printf_ex(int x, int y, uintattr_t fg, uintattr_t bg, size_t *out_w,
const char *fmt, ...);
/* Send raw bytes to terminal. */
int tb_send(const char *buf, size_t nbuf);
int tb_sendf(const char *fmt, ...);
/* Set custom functions. fn_type is one of TB_FUNC_* constants, fn is a
* compatible function pointer, or NULL to clear.
*
* TB_FUNC_EXTRACT_PRE:
* If specified, invoke this function BEFORE termbox tries to extract any
* escape sequences from the input buffer.
*
* TB_FUNC_EXTRACT_POST:
* If specified, invoke this function AFTER termbox tries (and fails) to
* extract any escape sequences from the input buffer.
*/
int tb_set_func(int fn_type, int (*fn)(struct tb_event *, size_t *));
/* Return byte length of codepoint given first byte of UTF-8 sequence (1-6). */
int tb_utf8_char_length(char c);
/* Convert UTF-8 null-terminated byte sequence to UTF-32 codepoint.
*
* If `c` is an empty C string, return 0. `out` is left unchanged.
*
* If a null byte is encountered in the middle of the codepoint, return a
* negative number indicating how many bytes were processed. `out` is left
* unchanged.
*
* Otherwise, return byte length of codepoint (1-6).
*/
int tb_utf8_char_to_unicode(uint32_t *out, const char *c);
/* Convert UTF-32 codepoint to UTF-8 null-terminated byte sequence.
*
* `out` must be char[7] or greater. Return byte length of codepoint (1-6).
*/
int tb_utf8_unicode_to_char(char *out, uint32_t c);
/* Library utility functions */
int tb_last_errno(void);
const char *tb_strerror(int err);
struct tb_cell *tb_cell_buffer(void);
int tb_has_truecolor(void);
int tb_has_egc(void);
int tb_attr_width(void);
const char *tb_version(void);
#ifdef __cplusplus
}
#endif
#endif /* __TERMBOX_H */
#ifdef TB_IMPL
#define if_err_return(rv, expr) \
if (((rv) = (expr)) != TB_OK) return (rv)
#define if_err_break(rv, expr) \
if (((rv) = (expr)) != TB_OK) break
#define if_ok_return(rv, expr) \
if (((rv) = (expr)) == TB_OK) return (rv)
#define if_ok_or_need_more_return(rv, expr) \
if (((rv) = (expr)) == TB_OK || (rv) == TB_ERR_NEED_MORE) return (rv)
#define send_literal(rv, a) \
if_err_return((rv), bytebuf_nputs(&global.out, (a), sizeof(a) - 1))
#define send_num(rv, nbuf, n) \
if_err_return((rv), \
bytebuf_nputs(&global.out, (nbuf), convert_num((n), (nbuf))))
#define snprintf_or_return(rv, str, sz, fmt, ...) \
do { \
(rv) = snprintf((str), (sz), (fmt), __VA_ARGS__); \
if ((rv) < 0 || (rv) >= (int)(sz)) return TB_ERR; \
} while (0)
#define if_not_init_return() \
if (!global.initialized) return TB_ERR_NOT_INIT
struct bytebuf_t {
char *buf;
size_t len;
size_t cap;
};
struct cellbuf_t {
int width;
int height;
struct tb_cell *cells;
};
struct cap_trie_t {
char c;
struct cap_trie_t *children;
size_t nchildren;
int is_leaf;
uint16_t key;
uint8_t mod;
};
struct tb_global_t {
int ttyfd;
int rfd;
int wfd;
int ttyfd_open;
int resize_pipefd[2];
int width;
int height;
int cursor_x;
int cursor_y;
int last_x;
int last_y;
uintattr_t fg;
uintattr_t bg;
uintattr_t last_fg;
uintattr_t last_bg;
int input_mode;
int output_mode;
char *terminfo;
size_t nterminfo;
const char *caps[TB_CAP__COUNT];
struct cap_trie_t cap_trie;
struct bytebuf_t in;
struct bytebuf_t out;
struct cellbuf_t back;
struct cellbuf_t front;
struct termios orig_tios;
int has_orig_tios;
int last_errno;
int initialized;
int (*fn_extract_esc_pre)(struct tb_event *, size_t *);
int (*fn_extract_esc_post)(struct tb_event *, size_t *);
char errbuf[1024];
};
static struct tb_global_t global = {0};
/* BEGIN codegen c */
/* Produced by ./codegen.sh on Thu, 13 Jul 2023 05:46:13 +0000 */
static const int16_t terminfo_cap_indexes[] = {
66, // kf1 (TB_CAP_F1)
68, // kf2 (TB_CAP_F2)
69, // kf3 (TB_CAP_F3)
70, // kf4 (TB_CAP_F4)
71, // kf5 (TB_CAP_F5)
72, // kf6 (TB_CAP_F6)
73, // kf7 (TB_CAP_F7)
74, // kf8 (TB_CAP_F8)
75, // kf9 (TB_CAP_F9)
67, // kf10 (TB_CAP_F10)
216, // kf11 (TB_CAP_F11)
217, // kf12 (TB_CAP_F12)
77, // kich1 (TB_CAP_INSERT)
59, // kdch1 (TB_CAP_DELETE)
76, // khome (TB_CAP_HOME)
164, // kend (TB_CAP_END)
82, // kpp (TB_CAP_PGUP)
81, // knp (TB_CAP_PGDN)
87, // kcuu1 (TB_CAP_ARROW_UP)
61, // kcud1 (TB_CAP_ARROW_DOWN)
79, // kcub1 (TB_CAP_ARROW_LEFT)
83, // kcuf1 (TB_CAP_ARROW_RIGHT)
148, // kcbt (TB_CAP_BACK_TAB)
28, // smcup (TB_CAP_ENTER_CA)
40, // rmcup (TB_CAP_EXIT_CA)
16, // cnorm (TB_CAP_SHOW_CURSOR)
13, // civis (TB_CAP_HIDE_CURSOR)
5, // clear (TB_CAP_CLEAR_SCREEN)
39, // sgr0 (TB_CAP_SGR0)
36, // smul (TB_CAP_UNDERLINE)
27, // bold (TB_CAP_BOLD)
26, // blink (TB_CAP_BLINK)
311, // sitm (TB_CAP_ITALIC)
34, // rev (TB_CAP_REVERSE)
89, // smkx (TB_CAP_ENTER_KEYPAD)
88, // rmkx (TB_CAP_EXIT_KEYPAD)
30, // dim (TB_CAP_DIM)
32, // invis (TB_CAP_INVISIBLE)
};
// xterm
static const char *xterm_caps[] = {
"\033OP", // kf1 (TB_CAP_F1)
"\033OQ", // kf2 (TB_CAP_F2)
"\033OR", // kf3 (TB_CAP_F3)
"\033OS", // kf4 (TB_CAP_F4)
"\033[15~", // kf5 (TB_CAP_F5)
"\033[17~", // kf6 (TB_CAP_F6)
"\033[18~", // kf7 (TB_CAP_F7)
"\033[19~", // kf8 (TB_CAP_F8)
"\033[20~", // kf9 (TB_CAP_F9)
"\033[21~", // kf10 (TB_CAP_F10)
"\033[23~", // kf11 (TB_CAP_F11)
"\033[24~", // kf12 (TB_CAP_F12)
"\033[2~", // kich1 (TB_CAP_INSERT)
"\033[3~", // kdch1 (TB_CAP_DELETE)
"\033OH", // khome (TB_CAP_HOME)
"\033OF", // kend (TB_CAP_END)
"\033[5~", // kpp (TB_CAP_PGUP)
"\033[6~", // knp (TB_CAP_PGDN)
"\033OA", // kcuu1 (TB_CAP_ARROW_UP)
"\033OB", // kcud1 (TB_CAP_ARROW_DOWN)
"\033OD", // kcub1 (TB_CAP_ARROW_LEFT)
"\033OC", // kcuf1 (TB_CAP_ARROW_RIGHT)
"\033[Z", // kcbt (TB_CAP_BACK_TAB)
"\033[?1049h\033[22;0;0t", // smcup (TB_CAP_ENTER_CA)
"\033[?1049l\033[23;0;0t", // rmcup (TB_CAP_EXIT_CA)
"\033[?12l\033[?25h", // cnorm (TB_CAP_SHOW_CURSOR)
"\033[?25l", // civis (TB_CAP_HIDE_CURSOR)
"\033[H\033[2J", // clear (TB_CAP_CLEAR_SCREEN)
"\033(B\033[m", // sgr0 (TB_CAP_SGR0)
"\033[4m", // smul (TB_CAP_UNDERLINE)
"\033[1m", // bold (TB_CAP_BOLD)
"\033[5m", // blink (TB_CAP_BLINK)
"\033[3m", // sitm (TB_CAP_ITALIC)
"\033[7m", // rev (TB_CAP_REVERSE)
"\033[?1h\033=", // smkx (TB_CAP_ENTER_KEYPAD)
"\033[?1l\033>", // rmkx (TB_CAP_EXIT_KEYPAD)
"\033[2m", // dim (TB_CAP_DIM)
"\033[8m", // invis (TB_CAP_INVISIBLE)
};
// linux
static const char *linux_caps[] = {
"\033[[A", // kf1 (TB_CAP_F1)
"\033[[B", // kf2 (TB_CAP_F2)
"\033[[C", // kf3 (TB_CAP_F3)
"\033[[D", // kf4 (TB_CAP_F4)
"\033[[E", // kf5 (TB_CAP_F5)
"\033[17~", // kf6 (TB_CAP_F6)
"\033[18~", // kf7 (TB_CAP_F7)
"\033[19~", // kf8 (TB_CAP_F8)
"\033[20~", // kf9 (TB_CAP_F9)
"\033[21~", // kf10 (TB_CAP_F10)
"\033[23~", // kf11 (TB_CAP_F11)
"\033[24~", // kf12 (TB_CAP_F12)
"\033[2~", // kich1 (TB_CAP_INSERT)
"\033[3~", // kdch1 (TB_CAP_DELETE)
"\033[1~", // khome (TB_CAP_HOME)
"\033[4~", // kend (TB_CAP_END)
"\033[5~", // kpp (TB_CAP_PGUP)
"\033[6~", // knp (TB_CAP_PGDN)
"\033[A", // kcuu1 (TB_CAP_ARROW_UP)
"\033[B", // kcud1 (TB_CAP_ARROW_DOWN)
"\033[D", // kcub1 (TB_CAP_ARROW_LEFT)
"\033[C", // kcuf1 (TB_CAP_ARROW_RIGHT)
"\033\011", // kcbt (TB_CAP_BACK_TAB)
"", // smcup (TB_CAP_ENTER_CA)
"", // rmcup (TB_CAP_EXIT_CA)
"\033[?25h\033[?0c", // cnorm (TB_CAP_SHOW_CURSOR)
"\033[?25l\033[?1c", // civis (TB_CAP_HIDE_CURSOR)
"\033[H\033[J", // clear (TB_CAP_CLEAR_SCREEN)
"\033[m\017", // sgr0 (TB_CAP_SGR0)
"\033[4m", // smul (TB_CAP_UNDERLINE)
"\033[1m", // bold (TB_CAP_BOLD)
"\033[5m", // blink (TB_CAP_BLINK)
"", // sitm (TB_CAP_ITALIC)
"\033[7m", // rev (TB_CAP_REVERSE)
"", // smkx (TB_CAP_ENTER_KEYPAD)
"", // rmkx (TB_CAP_EXIT_KEYPAD)
"\033[2m", // dim (TB_CAP_DIM)
"", // invis (TB_CAP_INVISIBLE)
};
// screen
static const char *screen_caps[] = {
"\033OP", // kf1 (TB_CAP_F1)
"\033OQ", // kf2 (TB_CAP_F2)
"\033OR", // kf3 (TB_CAP_F3)
"\033OS", // kf4 (TB_CAP_F4)
"\033[15~", // kf5 (TB_CAP_F5)
"\033[17~", // kf6 (TB_CAP_F6)
"\033[18~", // kf7 (TB_CAP_F7)
"\033[19~", // kf8 (TB_CAP_F8)
"\033[20~", // kf9 (TB_CAP_F9)
"\033[21~", // kf10 (TB_CAP_F10)
"\033[23~", // kf11 (TB_CAP_F11)
"\033[24~", // kf12 (TB_CAP_F12)
"\033[2~", // kich1 (TB_CAP_INSERT)
"\033[3~", // kdch1 (TB_CAP_DELETE)
"\033[1~", // khome (TB_CAP_HOME)
"\033[4~", // kend (TB_CAP_END)
"\033[5~", // kpp (TB_CAP_PGUP)
"\033[6~", // knp (TB_CAP_PGDN)
"\033OA", // kcuu1 (TB_CAP_ARROW_UP)
"\033OB", // kcud1 (TB_CAP_ARROW_DOWN)
"\033OD", // kcub1 (TB_CAP_ARROW_LEFT)
"\033OC", // kcuf1 (TB_CAP_ARROW_RIGHT)
"\033[Z", // kcbt (TB_CAP_BACK_TAB)
"\033[?1049h", // smcup (TB_CAP_ENTER_CA)
"\033[?1049l", // rmcup (TB_CAP_EXIT_CA)
"\033[34h\033[?25h", // cnorm (TB_CAP_SHOW_CURSOR)
"\033[?25l", // civis (TB_CAP_HIDE_CURSOR)
"\033[H\033[J", // clear (TB_CAP_CLEAR_SCREEN)
"\033[m\017", // sgr0 (TB_CAP_SGR0)
"\033[4m", // smul (TB_CAP_UNDERLINE)
"\033[1m", // bold (TB_CAP_BOLD)
"\033[5m", // blink (TB_CAP_BLINK)
"", // sitm (TB_CAP_ITALIC)
"\033[7m", // rev (TB_CAP_REVERSE)
"\033[?1h\033=", // smkx (TB_CAP_ENTER_KEYPAD)
"\033[?1l\033>", // rmkx (TB_CAP_EXIT_KEYPAD)
"\033[2m", // dim (TB_CAP_DIM)
"", // invis (TB_CAP_INVISIBLE)
};
// rxvt-256color
static const char *rxvt_256color_caps[] = {
"\033[11~", // kf1 (TB_CAP_F1)
"\033[12~", // kf2 (TB_CAP_F2)
"\033[13~", // kf3 (TB_CAP_F3)
"\033[14~", // kf4 (TB_CAP_F4)
"\033[15~", // kf5 (TB_CAP_F5)
"\033[17~", // kf6 (TB_CAP_F6)
"\033[18~", // kf7 (TB_CAP_F7)
"\033[19~", // kf8 (TB_CAP_F8)
"\033[20~", // kf9 (TB_CAP_F9)
"\033[21~", // kf10 (TB_CAP_F10)
"\033[23~", // kf11 (TB_CAP_F11)
"\033[24~", // kf12 (TB_CAP_F12)
"\033[2~", // kich1 (TB_CAP_INSERT)
"\033[3~", // kdch1 (TB_CAP_DELETE)
"\033[7~", // khome (TB_CAP_HOME)
"\033[8~", // kend (TB_CAP_END)
"\033[5~", // kpp (TB_CAP_PGUP)
"\033[6~", // knp (TB_CAP_PGDN)
"\033[A", // kcuu1 (TB_CAP_ARROW_UP)
"\033[B", // kcud1 (TB_CAP_ARROW_DOWN)
"\033[D", // kcub1 (TB_CAP_ARROW_LEFT)
"\033[C", // kcuf1 (TB_CAP_ARROW_RIGHT)
"\033[Z", // kcbt (TB_CAP_BACK_TAB)
"\0337\033[?47h", // smcup (TB_CAP_ENTER_CA)
"\033[2J\033[?47l\0338", // rmcup (TB_CAP_EXIT_CA)
"\033[?25h", // cnorm (TB_CAP_SHOW_CURSOR)
"\033[?25l", // civis (TB_CAP_HIDE_CURSOR)
"\033[H\033[2J", // clear (TB_CAP_CLEAR_SCREEN)
"\033[m\017", // sgr0 (TB_CAP_SGR0)
"\033[4m", // smul (TB_CAP_UNDERLINE)
"\033[1m", // bold (TB_CAP_BOLD)
"\033[5m", // blink (TB_CAP_BLINK)
"", // sitm (TB_CAP_ITALIC)
"\033[7m", // rev (TB_CAP_REVERSE)
"\033=", // smkx (TB_CAP_ENTER_KEYPAD)
"\033>", // rmkx (TB_CAP_EXIT_KEYPAD)
"", // dim (TB_CAP_DIM)
"", // invis (TB_CAP_INVISIBLE)
};
// rxvt-unicode
static const char *rxvt_unicode_caps[] = {
"\033[11~", // kf1 (TB_CAP_F1)
"\033[12~", // kf2 (TB_CAP_F2)
"\033[13~", // kf3 (TB_CAP_F3)
"\033[14~", // kf4 (TB_CAP_F4)
"\033[15~", // kf5 (TB_CAP_F5)
"\033[17~", // kf6 (TB_CAP_F6)
"\033[18~", // kf7 (TB_CAP_F7)
"\033[19~", // kf8 (TB_CAP_F8)
"\033[20~", // kf9 (TB_CAP_F9)
"\033[21~", // kf10 (TB_CAP_F10)
"\033[23~", // kf11 (TB_CAP_F11)
"\033[24~", // kf12 (TB_CAP_F12)
"\033[2~", // kich1 (TB_CAP_INSERT)
"\033[3~", // kdch1 (TB_CAP_DELETE)
"\033[7~", // khome (TB_CAP_HOME)
"\033[8~", // kend (TB_CAP_END)
"\033[5~", // kpp (TB_CAP_PGUP)
"\033[6~", // knp (TB_CAP_PGDN)
"\033[A", // kcuu1 (TB_CAP_ARROW_UP)
"\033[B", // kcud1 (TB_CAP_ARROW_DOWN)
"\033[D", // kcub1 (TB_CAP_ARROW_LEFT)
"\033[C", // kcuf1 (TB_CAP_ARROW_RIGHT)
"\033[Z", // kcbt (TB_CAP_BACK_TAB)
"\033[?1049h", // smcup (TB_CAP_ENTER_CA)
"\033[r\033[?1049l", // rmcup (TB_CAP_EXIT_CA)
"\033[?12l\033[?25h", // cnorm (TB_CAP_SHOW_CURSOR)
"\033[?25l", // civis (TB_CAP_HIDE_CURSOR)
"\033[H\033[2J", // clear (TB_CAP_CLEAR_SCREEN)
"\033[m\033(B", // sgr0 (TB_CAP_SGR0)
"\033[4m", // smul (TB_CAP_UNDERLINE)
"\033[1m", // bold (TB_CAP_BOLD)
"\033[5m", // blink (TB_CAP_BLINK)
"\033[3m", // sitm (TB_CAP_ITALIC)
"\033[7m", // rev (TB_CAP_REVERSE)
"\033=", // smkx (TB_CAP_ENTER_KEYPAD)
"\033>", // rmkx (TB_CAP_EXIT_KEYPAD)
"", // dim (TB_CAP_DIM)
"", // invis (TB_CAP_INVISIBLE)
};
// Eterm
static const char *eterm_caps[] = {
"\033[11~", // kf1 (TB_CAP_F1)
"\033[12~", // kf2 (TB_CAP_F2)
"\033[13~", // kf3 (TB_CAP_F3)
"\033[14~", // kf4 (TB_CAP_F4)
"\033[15~", // kf5 (TB_CAP_F5)
"\033[17~", // kf6 (TB_CAP_F6)
"\033[18~", // kf7 (TB_CAP_F7)
"\033[19~", // kf8 (TB_CAP_F8)
"\033[20~", // kf9 (TB_CAP_F9)
"\033[21~", // kf10 (TB_CAP_F10)
"\033[23~", // kf11 (TB_CAP_F11)
"\033[24~", // kf12 (TB_CAP_F12)
"\033[2~", // kich1 (TB_CAP_INSERT)
"\033[3~", // kdch1 (TB_CAP_DELETE)
"\033[7~", // khome (TB_CAP_HOME)
"\033[8~", // kend (TB_CAP_END)
"\033[5~", // kpp (TB_CAP_PGUP)
"\033[6~", // knp (TB_CAP_PGDN)
"\033[A", // kcuu1 (TB_CAP_ARROW_UP)
"\033[B", // kcud1 (TB_CAP_ARROW_DOWN)
"\033[D", // kcub1 (TB_CAP_ARROW_LEFT)
"\033[C", // kcuf1 (TB_CAP_ARROW_RIGHT)
"", // kcbt (TB_CAP_BACK_TAB)
"\0337\033[?47h", // smcup (TB_CAP_ENTER_CA)
"\033[2J\033[?47l\0338", // rmcup (TB_CAP_EXIT_CA)
"\033[?25h", // cnorm (TB_CAP_SHOW_CURSOR)
"\033[?25l", // civis (TB_CAP_HIDE_CURSOR)
"\033[H\033[2J", // clear (TB_CAP_CLEAR_SCREEN)
"\033[m\017", // sgr0 (TB_CAP_SGR0)
"\033[4m", // smul (TB_CAP_UNDERLINE)
"\033[1m", // bold (TB_CAP_BOLD)
"\033[5m", // blink (TB_CAP_BLINK)
"", // sitm (TB_CAP_ITALIC)
"\033[7m", // rev (TB_CAP_REVERSE)
"", // smkx (TB_CAP_ENTER_KEYPAD)
"", // rmkx (TB_CAP_EXIT_KEYPAD)
"", // dim (TB_CAP_DIM)
"", // invis (TB_CAP_INVISIBLE)
};
static struct {
const char *name;
const char **caps;
const char *alias;
} builtin_terms[] = {
{"xterm", xterm_caps, "" },
{"linux", linux_caps, "" },
{"screen", screen_caps, "tmux"},
{"rxvt-256color", rxvt_256color_caps, "" },
{"rxvt-unicode", rxvt_unicode_caps, "rxvt"},
{"Eterm", eterm_caps, "" },
{NULL, NULL, NULL },
};
/* END codegen c */
static struct {
const char *cap;
const uint16_t key;
const uint8_t mod;
} builtin_mod_caps[] = {
// xterm arrows
{"\x1b[1;2A", TB_KEY_ARROW_UP, TB_MOD_SHIFT },
{"\x1b[1;3A", TB_KEY_ARROW_UP, TB_MOD_ALT },
{"\x1b[1;4A", TB_KEY_ARROW_UP, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[1;5A", TB_KEY_ARROW_UP, TB_MOD_CTRL },
{"\x1b[1;6A", TB_KEY_ARROW_UP, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[1;7A", TB_KEY_ARROW_UP, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[1;8A", TB_KEY_ARROW_UP, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[1;2B", TB_KEY_ARROW_DOWN, TB_MOD_SHIFT },
{"\x1b[1;3B", TB_KEY_ARROW_DOWN, TB_MOD_ALT },
{"\x1b[1;4B", TB_KEY_ARROW_DOWN, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[1;5B", TB_KEY_ARROW_DOWN, TB_MOD_CTRL },
{"\x1b[1;6B", TB_KEY_ARROW_DOWN, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[1;7B", TB_KEY_ARROW_DOWN, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[1;8B", TB_KEY_ARROW_DOWN, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[1;2C", TB_KEY_ARROW_RIGHT, TB_MOD_SHIFT },
{"\x1b[1;3C", TB_KEY_ARROW_RIGHT, TB_MOD_ALT },
{"\x1b[1;4C", TB_KEY_ARROW_RIGHT, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[1;5C", TB_KEY_ARROW_RIGHT, TB_MOD_CTRL },
{"\x1b[1;6C", TB_KEY_ARROW_RIGHT, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[1;7C", TB_KEY_ARROW_RIGHT, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[1;8C", TB_KEY_ARROW_RIGHT, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[1;2D", TB_KEY_ARROW_LEFT, TB_MOD_SHIFT },
{"\x1b[1;3D", TB_KEY_ARROW_LEFT, TB_MOD_ALT },
{"\x1b[1;4D", TB_KEY_ARROW_LEFT, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[1;5D", TB_KEY_ARROW_LEFT, TB_MOD_CTRL },
{"\x1b[1;6D", TB_KEY_ARROW_LEFT, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[1;7D", TB_KEY_ARROW_LEFT, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[1;8D", TB_KEY_ARROW_LEFT, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
// xterm keys
{"\x1b[1;2H", TB_KEY_HOME, TB_MOD_SHIFT },
{"\x1b[1;3H", TB_KEY_HOME, TB_MOD_ALT },
{"\x1b[1;4H", TB_KEY_HOME, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[1;5H", TB_KEY_HOME, TB_MOD_CTRL },
{"\x1b[1;6H", TB_KEY_HOME, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[1;7H", TB_KEY_HOME, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[1;8H", TB_KEY_HOME, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[1;2F", TB_KEY_END, TB_MOD_SHIFT },
{"\x1b[1;3F", TB_KEY_END, TB_MOD_ALT },
{"\x1b[1;4F", TB_KEY_END, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[1;5F", TB_KEY_END, TB_MOD_CTRL },
{"\x1b[1;6F", TB_KEY_END, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[1;7F", TB_KEY_END, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[1;8F", TB_KEY_END, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[2;2~", TB_KEY_INSERT, TB_MOD_SHIFT },
{"\x1b[2;3~", TB_KEY_INSERT, TB_MOD_ALT },
{"\x1b[2;4~", TB_KEY_INSERT, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[2;5~", TB_KEY_INSERT, TB_MOD_CTRL },
{"\x1b[2;6~", TB_KEY_INSERT, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[2;7~", TB_KEY_INSERT, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[2;8~", TB_KEY_INSERT, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[3;2~", TB_KEY_DELETE, TB_MOD_SHIFT },
{"\x1b[3;3~", TB_KEY_DELETE, TB_MOD_ALT },
{"\x1b[3;4~", TB_KEY_DELETE, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[3;5~", TB_KEY_DELETE, TB_MOD_CTRL },
{"\x1b[3;6~", TB_KEY_DELETE, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[3;7~", TB_KEY_DELETE, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[3;8~", TB_KEY_DELETE, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[5;2~", TB_KEY_PGUP, TB_MOD_SHIFT },
{"\x1b[5;3~", TB_KEY_PGUP, TB_MOD_ALT },
{"\x1b[5;4~", TB_KEY_PGUP, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[5;5~", TB_KEY_PGUP, TB_MOD_CTRL },
{"\x1b[5;6~", TB_KEY_PGUP, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[5;7~", TB_KEY_PGUP, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[5;8~", TB_KEY_PGUP, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[6;2~", TB_KEY_PGDN, TB_MOD_SHIFT },
{"\x1b[6;3~", TB_KEY_PGDN, TB_MOD_ALT },
{"\x1b[6;4~", TB_KEY_PGDN, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[6;5~", TB_KEY_PGDN, TB_MOD_CTRL },
{"\x1b[6;6~", TB_KEY_PGDN, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[6;7~", TB_KEY_PGDN, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[6;8~", TB_KEY_PGDN, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[1;2P", TB_KEY_F1, TB_MOD_SHIFT },
{"\x1b[1;3P", TB_KEY_F1, TB_MOD_ALT },
{"\x1b[1;4P", TB_KEY_F1, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[1;5P", TB_KEY_F1, TB_MOD_CTRL },
{"\x1b[1;6P", TB_KEY_F1, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[1;7P", TB_KEY_F1, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[1;8P", TB_KEY_F1, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[1;2Q", TB_KEY_F2, TB_MOD_SHIFT },
{"\x1b[1;3Q", TB_KEY_F2, TB_MOD_ALT },
{"\x1b[1;4Q", TB_KEY_F2, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[1;5Q", TB_KEY_F2, TB_MOD_CTRL },
{"\x1b[1;6Q", TB_KEY_F2, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[1;7Q", TB_KEY_F2, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[1;8Q", TB_KEY_F2, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[1;2R", TB_KEY_F3, TB_MOD_SHIFT },
{"\x1b[1;3R", TB_KEY_F3, TB_MOD_ALT },
{"\x1b[1;4R", TB_KEY_F3, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[1;5R", TB_KEY_F3, TB_MOD_CTRL },
{"\x1b[1;6R", TB_KEY_F3, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[1;7R", TB_KEY_F3, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[1;8R", TB_KEY_F3, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[1;2S", TB_KEY_F4, TB_MOD_SHIFT },
{"\x1b[1;3S", TB_KEY_F4, TB_MOD_ALT },
{"\x1b[1;4S", TB_KEY_F4, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[1;5S", TB_KEY_F4, TB_MOD_CTRL },
{"\x1b[1;6S", TB_KEY_F4, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[1;7S", TB_KEY_F4, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[1;8S", TB_KEY_F4, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[15;2~", TB_KEY_F5, TB_MOD_SHIFT },
{"\x1b[15;3~", TB_KEY_F5, TB_MOD_ALT },
{"\x1b[15;4~", TB_KEY_F5, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[15;5~", TB_KEY_F5, TB_MOD_CTRL },
{"\x1b[15;6~", TB_KEY_F5, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[15;7~", TB_KEY_F5, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[15;8~", TB_KEY_F5, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[17;2~", TB_KEY_F6, TB_MOD_SHIFT },
{"\x1b[17;3~", TB_KEY_F6, TB_MOD_ALT },
{"\x1b[17;4~", TB_KEY_F6, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[17;5~", TB_KEY_F6, TB_MOD_CTRL },
{"\x1b[17;6~", TB_KEY_F6, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[17;7~", TB_KEY_F6, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[17;8~", TB_KEY_F6, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[18;2~", TB_KEY_F7, TB_MOD_SHIFT },
{"\x1b[18;3~", TB_KEY_F7, TB_MOD_ALT },
{"\x1b[18;4~", TB_KEY_F7, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[18;5~", TB_KEY_F7, TB_MOD_CTRL },
{"\x1b[18;6~", TB_KEY_F7, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[18;7~", TB_KEY_F7, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[18;8~", TB_KEY_F7, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[19;2~", TB_KEY_F8, TB_MOD_SHIFT },
{"\x1b[19;3~", TB_KEY_F8, TB_MOD_ALT },
{"\x1b[19;4~", TB_KEY_F8, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[19;5~", TB_KEY_F8, TB_MOD_CTRL },
{"\x1b[19;6~", TB_KEY_F8, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[19;7~", TB_KEY_F8, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[19;8~", TB_KEY_F8, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[20;2~", TB_KEY_F9, TB_MOD_SHIFT },
{"\x1b[20;3~", TB_KEY_F9, TB_MOD_ALT },
{"\x1b[20;4~", TB_KEY_F9, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[20;5~", TB_KEY_F9, TB_MOD_CTRL },
{"\x1b[20;6~", TB_KEY_F9, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[20;7~", TB_KEY_F9, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[20;8~", TB_KEY_F9, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[21;2~", TB_KEY_F10, TB_MOD_SHIFT },
{"\x1b[21;3~", TB_KEY_F10, TB_MOD_ALT },
{"\x1b[21;4~", TB_KEY_F10, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[21;5~", TB_KEY_F10, TB_MOD_CTRL },
{"\x1b[21;6~", TB_KEY_F10, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[21;7~", TB_KEY_F10, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[21;8~", TB_KEY_F10, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[23;2~", TB_KEY_F11, TB_MOD_SHIFT },
{"\x1b[23;3~", TB_KEY_F11, TB_MOD_ALT },
{"\x1b[23;4~", TB_KEY_F11, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[23;5~", TB_KEY_F11, TB_MOD_CTRL },
{"\x1b[23;6~", TB_KEY_F11, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[23;7~", TB_KEY_F11, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[23;8~", TB_KEY_F11, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[24;2~", TB_KEY_F12, TB_MOD_SHIFT },
{"\x1b[24;3~", TB_KEY_F12, TB_MOD_ALT },
{"\x1b[24;4~", TB_KEY_F12, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[24;5~", TB_KEY_F12, TB_MOD_CTRL },
{"\x1b[24;6~", TB_KEY_F12, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[24;7~", TB_KEY_F12, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[24;8~", TB_KEY_F12, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
// rxvt arrows
{"\x1b[a", TB_KEY_ARROW_UP, TB_MOD_SHIFT },
{"\x1b\x1b[A", TB_KEY_ARROW_UP, TB_MOD_ALT },
{"\x1b\x1b[a", TB_KEY_ARROW_UP, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1bOa", TB_KEY_ARROW_UP, TB_MOD_CTRL },
{"\x1b\x1bOa", TB_KEY_ARROW_UP, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[b", TB_KEY_ARROW_DOWN, TB_MOD_SHIFT },
{"\x1b\x1b[B", TB_KEY_ARROW_DOWN, TB_MOD_ALT },
{"\x1b\x1b[b", TB_KEY_ARROW_DOWN, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1bOb", TB_KEY_ARROW_DOWN, TB_MOD_CTRL },
{"\x1b\x1bOb", TB_KEY_ARROW_DOWN, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[c", TB_KEY_ARROW_RIGHT, TB_MOD_SHIFT },
{"\x1b\x1b[C", TB_KEY_ARROW_RIGHT, TB_MOD_ALT },
{"\x1b\x1b[c", TB_KEY_ARROW_RIGHT, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1bOc", TB_KEY_ARROW_RIGHT, TB_MOD_CTRL },
{"\x1b\x1bOc", TB_KEY_ARROW_RIGHT, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b[d", TB_KEY_ARROW_LEFT, TB_MOD_SHIFT },
{"\x1b\x1b[D", TB_KEY_ARROW_LEFT, TB_MOD_ALT },
{"\x1b\x1b[d", TB_KEY_ARROW_LEFT, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1bOd", TB_KEY_ARROW_LEFT, TB_MOD_CTRL },
{"\x1b\x1bOd", TB_KEY_ARROW_LEFT, TB_MOD_CTRL | TB_MOD_ALT },
// rxvt keys
{"\x1b[7$", TB_KEY_HOME, TB_MOD_SHIFT },
{"\x1b\x1b[7~", TB_KEY_HOME, TB_MOD_ALT },
{"\x1b\x1b[7$", TB_KEY_HOME, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[7^", TB_KEY_HOME, TB_MOD_CTRL },
{"\x1b[7@", TB_KEY_HOME, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b\x1b[7^", TB_KEY_HOME, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[7@", TB_KEY_HOME, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b\x1b[8~", TB_KEY_END, TB_MOD_ALT },
{"\x1b\x1b[8$", TB_KEY_END, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[8^", TB_KEY_END, TB_MOD_CTRL },
{"\x1b\x1b[8^", TB_KEY_END, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[8@", TB_KEY_END, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[8@", TB_KEY_END, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[8$", TB_KEY_END, TB_MOD_SHIFT },
{"\x1b\x1b[2~", TB_KEY_INSERT, TB_MOD_ALT },
{"\x1b\x1b[2$", TB_KEY_INSERT, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[2^", TB_KEY_INSERT, TB_MOD_CTRL },
{"\x1b\x1b[2^", TB_KEY_INSERT, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[2@", TB_KEY_INSERT, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[2@", TB_KEY_INSERT, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[2$", TB_KEY_INSERT, TB_MOD_SHIFT },
{"\x1b\x1b[3~", TB_KEY_DELETE, TB_MOD_ALT },
{"\x1b\x1b[3$", TB_KEY_DELETE, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[3^", TB_KEY_DELETE, TB_MOD_CTRL },
{"\x1b\x1b[3^", TB_KEY_DELETE, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[3@", TB_KEY_DELETE, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[3@", TB_KEY_DELETE, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[3$", TB_KEY_DELETE, TB_MOD_SHIFT },
{"\x1b\x1b[5~", TB_KEY_PGUP, TB_MOD_ALT },
{"\x1b\x1b[5$", TB_KEY_PGUP, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[5^", TB_KEY_PGUP, TB_MOD_CTRL },
{"\x1b\x1b[5^", TB_KEY_PGUP, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[5@", TB_KEY_PGUP, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[5@", TB_KEY_PGUP, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[5$", TB_KEY_PGUP, TB_MOD_SHIFT },
{"\x1b\x1b[6~", TB_KEY_PGDN, TB_MOD_ALT },
{"\x1b\x1b[6$", TB_KEY_PGDN, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[6^", TB_KEY_PGDN, TB_MOD_CTRL },
{"\x1b\x1b[6^", TB_KEY_PGDN, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[6@", TB_KEY_PGDN, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[6@", TB_KEY_PGDN, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[6$", TB_KEY_PGDN, TB_MOD_SHIFT },
{"\x1b\x1b[11~", TB_KEY_F1, TB_MOD_ALT },
{"\x1b\x1b[23~", TB_KEY_F1, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[11^", TB_KEY_F1, TB_MOD_CTRL },
{"\x1b\x1b[11^", TB_KEY_F1, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[23^", TB_KEY_F1, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[23^", TB_KEY_F1, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[23~", TB_KEY_F1, TB_MOD_SHIFT },
{"\x1b\x1b[12~", TB_KEY_F2, TB_MOD_ALT },
{"\x1b\x1b[24~", TB_KEY_F2, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[12^", TB_KEY_F2, TB_MOD_CTRL },
{"\x1b\x1b[12^", TB_KEY_F2, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[24^", TB_KEY_F2, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[24^", TB_KEY_F2, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[24~", TB_KEY_F2, TB_MOD_SHIFT },
{"\x1b\x1b[13~", TB_KEY_F3, TB_MOD_ALT },
{"\x1b\x1b[25~", TB_KEY_F3, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[13^", TB_KEY_F3, TB_MOD_CTRL },
{"\x1b\x1b[13^", TB_KEY_F3, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[25^", TB_KEY_F3, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[25^", TB_KEY_F3, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[25~", TB_KEY_F3, TB_MOD_SHIFT },
{"\x1b\x1b[14~", TB_KEY_F4, TB_MOD_ALT },
{"\x1b\x1b[26~", TB_KEY_F4, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[14^", TB_KEY_F4, TB_MOD_CTRL },
{"\x1b\x1b[14^", TB_KEY_F4, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[26^", TB_KEY_F4, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[26^", TB_KEY_F4, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[26~", TB_KEY_F4, TB_MOD_SHIFT },
{"\x1b\x1b[15~", TB_KEY_F5, TB_MOD_ALT },
{"\x1b\x1b[28~", TB_KEY_F5, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[15^", TB_KEY_F5, TB_MOD_CTRL },
{"\x1b\x1b[15^", TB_KEY_F5, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[28^", TB_KEY_F5, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[28^", TB_KEY_F5, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[28~", TB_KEY_F5, TB_MOD_SHIFT },
{"\x1b\x1b[17~", TB_KEY_F6, TB_MOD_ALT },
{"\x1b\x1b[29~", TB_KEY_F6, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[17^", TB_KEY_F6, TB_MOD_CTRL },
{"\x1b\x1b[17^", TB_KEY_F6, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[29^", TB_KEY_F6, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[29^", TB_KEY_F6, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[29~", TB_KEY_F6, TB_MOD_SHIFT },
{"\x1b\x1b[18~", TB_KEY_F7, TB_MOD_ALT },
{"\x1b\x1b[31~", TB_KEY_F7, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[18^", TB_KEY_F7, TB_MOD_CTRL },
{"\x1b\x1b[18^", TB_KEY_F7, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[31^", TB_KEY_F7, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[31^", TB_KEY_F7, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[31~", TB_KEY_F7, TB_MOD_SHIFT },
{"\x1b\x1b[19~", TB_KEY_F8, TB_MOD_ALT },
{"\x1b\x1b[32~", TB_KEY_F8, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[19^", TB_KEY_F8, TB_MOD_CTRL },
{"\x1b\x1b[19^", TB_KEY_F8, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[32^", TB_KEY_F8, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[32^", TB_KEY_F8, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[32~", TB_KEY_F8, TB_MOD_SHIFT },
{"\x1b\x1b[20~", TB_KEY_F9, TB_MOD_ALT },
{"\x1b\x1b[33~", TB_KEY_F9, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[20^", TB_KEY_F9, TB_MOD_CTRL },
{"\x1b\x1b[20^", TB_KEY_F9, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[33^", TB_KEY_F9, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[33^", TB_KEY_F9, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[33~", TB_KEY_F9, TB_MOD_SHIFT },
{"\x1b\x1b[21~", TB_KEY_F10, TB_MOD_ALT },
{"\x1b\x1b[34~", TB_KEY_F10, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[21^", TB_KEY_F10, TB_MOD_CTRL },
{"\x1b\x1b[21^", TB_KEY_F10, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[34^", TB_KEY_F10, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[34^", TB_KEY_F10, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[34~", TB_KEY_F10, TB_MOD_SHIFT },
{"\x1b\x1b[23~", TB_KEY_F11, TB_MOD_ALT },
{"\x1b\x1b[23$", TB_KEY_F11, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[23^", TB_KEY_F11, TB_MOD_CTRL },
{"\x1b\x1b[23^", TB_KEY_F11, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[23@", TB_KEY_F11, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[23@", TB_KEY_F11, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[23$", TB_KEY_F11, TB_MOD_SHIFT },
{"\x1b\x1b[24~", TB_KEY_F12, TB_MOD_ALT },
{"\x1b\x1b[24$", TB_KEY_F12, TB_MOD_ALT | TB_MOD_SHIFT },
{"\x1b[24^", TB_KEY_F12, TB_MOD_CTRL },
{"\x1b\x1b[24^", TB_KEY_F12, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1b\x1b[24@", TB_KEY_F12, TB_MOD_CTRL | TB_MOD_ALT | TB_MOD_SHIFT},
{"\x1b[24@", TB_KEY_F12, TB_MOD_CTRL | TB_MOD_SHIFT },
{"\x1b[24$", TB_KEY_F12, TB_MOD_SHIFT },
// linux console/putty arrows
{"\x1b[A", TB_KEY_ARROW_UP, TB_MOD_SHIFT },
{"\x1b[B", TB_KEY_ARROW_DOWN, TB_MOD_SHIFT },
{"\x1b[C", TB_KEY_ARROW_RIGHT, TB_MOD_SHIFT },
{"\x1b[D", TB_KEY_ARROW_LEFT, TB_MOD_SHIFT },
// more putty arrows
{"\x1bOA", TB_KEY_ARROW_UP, TB_MOD_CTRL },
{"\x1b\x1bOA", TB_KEY_ARROW_UP, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1bOB", TB_KEY_ARROW_DOWN, TB_MOD_CTRL },
{"\x1b\x1bOB", TB_KEY_ARROW_DOWN, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1bOC", TB_KEY_ARROW_RIGHT, TB_MOD_CTRL },
{"\x1b\x1bOC", TB_KEY_ARROW_RIGHT, TB_MOD_CTRL | TB_MOD_ALT },
{"\x1bOD", TB_KEY_ARROW_LEFT, TB_MOD_CTRL },
{"\x1b\x1bOD", TB_KEY_ARROW_LEFT, TB_MOD_CTRL | TB_MOD_ALT },
{NULL, 0, 0 },
};
static const unsigned char utf8_length[256] = {1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3,
3, 3, 3, 3, 4, 4, 4, 4, 4, 4, 4, 4, 5, 5, 5, 5, 6, 6, 1, 1};
static const unsigned char utf8_mask[6] = {0x7f, 0x1f, 0x0f, 0x07, 0x03, 0x01};
static int tb_reset(void);
static int tb_printf_inner(int x, int y, uintattr_t fg, uintattr_t bg,
size_t *out_w, const char *fmt, va_list vl);
static int init_term_attrs(void);
static int init_term_caps(void);
static int init_cap_trie(void);
static int cap_trie_add(const char *cap, uint16_t key, uint8_t mod);
static int cap_trie_find(const char *buf, size_t nbuf, struct cap_trie_t **last,
size_t *depth);
static int cap_trie_deinit(struct cap_trie_t *node);
static int init_resize_handler(void);
static int send_init_escape_codes(void);
static int send_clear(void);
static int update_term_size(void);
static int update_term_size_via_esc(void);
static int init_cellbuf(void);
static int tb_deinit(void);
static int load_terminfo(void);
static int load_terminfo_from_path(const char *path, const char *term);
static int read_terminfo_path(const char *path);
static int parse_terminfo_caps(void);
static int load_builtin_caps(void);
static const char *get_terminfo_string(int16_t str_offsets_pos,
int16_t str_offsets_len, int16_t str_table_pos, int16_t str_table_len,
int16_t str_index);
static int wait_event(struct tb_event *event, int timeout);
static int extract_event(struct tb_event *event);
static int extract_esc(struct tb_event *event);
static int extract_esc_user(struct tb_event *event, int is_post);
static int extract_esc_cap(struct tb_event *event);
static int extract_esc_mouse(struct tb_event *event);
static int resize_cellbufs(void);
static void handle_resize(int sig);
static int send_attr(uintattr_t fg, uintattr_t bg);
static int send_sgr(uint32_t fg, uint32_t bg, int fg_is_default,
int bg_is_default);
static int send_cursor_if(int x, int y);
static int send_char(int x, int y, uint32_t ch);
static int send_cluster(int x, int y, uint32_t *ch, size_t nch);
static int convert_num(uint32_t num, char *buf);
static int cell_cmp(struct tb_cell *a, struct tb_cell *b);
static int cell_copy(struct tb_cell *dst, struct tb_cell *src);
static int cell_set(struct tb_cell *cell, uint32_t *ch, size_t nch,
uintattr_t fg, uintattr_t bg);
static int cell_reserve_ech(struct tb_cell *cell, size_t n);
static int cell_free(struct tb_cell *cell);
static int cellbuf_init(struct cellbuf_t *c, int w, int h);
static int cellbuf_free(struct cellbuf_t *c);
static int cellbuf_clear(struct cellbuf_t *c);
static int cellbuf_get(struct cellbuf_t *c, int x, int y, struct tb_cell **out);
static int cellbuf_resize(struct cellbuf_t *c, int w, int h);
static int bytebuf_puts(struct bytebuf_t *b, const char *str);
static int bytebuf_nputs(struct bytebuf_t *b, const char *str, size_t nstr);
static int bytebuf_shift(struct bytebuf_t *b, size_t n);
static int bytebuf_flush(struct bytebuf_t *b, int fd);
static int bytebuf_reserve(struct bytebuf_t *b, size_t sz);
static int bytebuf_free(struct bytebuf_t *b);
int tb_init(void) {
return tb_init_file("/dev/tty");
}
int tb_init_file(const char *path) {
if (global.initialized) {
return TB_ERR_INIT_ALREADY;
}
int ttyfd = open(path, O_RDWR);
if (ttyfd < 0) {
global.last_errno = errno;
return TB_ERR_INIT_OPEN;
}
global.ttyfd_open = 1;
return tb_init_fd(ttyfd);
}
int tb_init_fd(int ttyfd) {
return tb_init_rwfd(ttyfd, ttyfd);
}
int tb_init_rwfd(int rfd, int wfd) {
int rv;
tb_reset();
global.ttyfd = rfd == wfd && isatty(rfd) ? rfd : -1;
global.rfd = rfd;
global.wfd = wfd;
do {
if_err_break(rv, init_term_attrs());
if_err_break(rv, init_term_caps());
if_err_break(rv, init_cap_trie());
if_err_break(rv, init_resize_handler());
if_err_break(rv, send_init_escape_codes());
if_err_break(rv, send_clear());
if_err_break(rv, update_term_size());
if_err_break(rv, init_cellbuf());
global.initialized = 1;
} while (0);
if (rv != TB_OK) {
tb_deinit();
}
return rv;
}
int tb_shutdown(void) {
if_not_init_return();
tb_deinit();
return TB_OK;
}
int tb_width(void) {
if_not_init_return();
return global.width;
}
int tb_height(void) {
if_not_init_return();
return global.height;
}
int tb_clear(void) {
if_not_init_return();
return cellbuf_clear(&global.back);
}
int tb_set_clear_attrs(uintattr_t fg, uintattr_t bg) {
if_not_init_return();
global.fg = fg;
global.bg = bg;
return TB_OK;
}
int tb_present(void) {
if_not_init_return();
int rv;
// TODO Assert global.back.(width,height) == global.front.(width,height)
global.last_x = -1;
global.last_y = -1;
int x, y, i;
for (y = 0; y < global.front.height; y++) {
for (x = 0; x < global.front.width;) {
struct tb_cell *back, *front;
if_err_return(rv, cellbuf_get(&global.back, x, y, &back));
if_err_return(rv, cellbuf_get(&global.front, x, y, &front));
int w;
{
#ifdef TB_OPT_EGC
if (back->nech > 0)
w = wcswidth((wchar_t *)back->ech, back->nech);
else
#endif
/* wcwidth() simply returns -1 on overflow of wchar_t */
w = wcwidth((wchar_t)back->ch);
}
if (w < 1) {
w = 1;
}
if (cell_cmp(back, front) != 0) {
cell_copy(front, back);
send_attr(back->fg, back->bg);
if (w > 1 && x >= global.front.width - (w - 1)) {
for (i = x; i < global.front.width; i++) {
send_char(i, y, ' ');
}
} else {
{
#ifdef TB_OPT_EGC
if (back->nech > 0)
send_cluster(x, y, back->ech, back->nech);
else
#endif
send_char(x, y, back->ch);
}
for (i = 1; i < w; i++) {
struct tb_cell *front_wide;
if_err_return(rv,
cellbuf_get(&global.front, x + i, y, &front_wide));
if_err_return(rv,
cell_set(front_wide, 0, 1, back->fg, back->bg));
}
}
}
x += w;
}
}
if_err_return(rv, send_cursor_if(global.cursor_x, global.cursor_y));
if_err_return(rv, bytebuf_flush(&global.out, global.wfd));
return TB_OK;
}
int tb_invalidate(void) {
int rv;
if_not_init_return();
if_err_return(rv, resize_cellbufs());
return TB_OK;
}
int tb_set_cursor(int cx, int cy) {
if_not_init_return();
int rv;
if (cx < 0) cx = 0;
if (cy < 0) cy = 0;
if (global.cursor_x == -1) {
if_err_return(rv,
bytebuf_puts(&global.out, global.caps[TB_CAP_SHOW_CURSOR]));
}
if_err_return(rv, send_cursor_if(cx, cy));
global.cursor_x = cx;
global.cursor_y = cy;
return TB_OK;
}
int tb_hide_cursor(void) {
if_not_init_return();
int rv;
if (global.cursor_x >= 0) {
if_err_return(rv,
bytebuf_puts(&global.out, global.caps[TB_CAP_HIDE_CURSOR]));
}
global.cursor_x = -1;
global.cursor_y = -1;
return TB_OK;
}
int tb_set_cell(int x, int y, uint32_t ch, uintattr_t fg, uintattr_t bg) {
return tb_set_cell_ex(x, y, &ch, 1, fg, bg);
}
int tb_set_cell_ex(int x, int y, uint32_t *ch, size_t nch, uintattr_t fg,
uintattr_t bg) {
if_not_init_return();
int rv;
struct tb_cell *cell;
if_err_return(rv, cellbuf_get(&global.back, x, y, &cell));
if_err_return(rv, cell_set(cell, ch, nch, fg, bg));
return TB_OK;
}
int tb_extend_cell(int x, int y, uint32_t ch) {
if_not_init_return();
#ifdef TB_OPT_EGC
int rv;
struct tb_cell *cell;
size_t nech;
if_err_return(rv, cellbuf_get(&global.back, x, y, &cell));
if (cell->nech > 0) { // append to ech
nech = cell->nech + 1;
if_err_return(rv, cell_reserve_ech(cell, nech));
cell->ech[nech - 1] = ch;
} else { // make new ech
nech = 2;
if_err_return(rv, cell_reserve_ech(cell, nech));
cell->ech[0] = cell->ch;
cell->ech[1] = ch;
}
cell->ech[nech] = '\0';
cell->nech = nech;
return TB_OK;
#else
(void)x;
(void)y;
(void)ch;
return TB_ERR;
#endif
}
int tb_set_input_mode(int mode) {
if_not_init_return();
if (mode == TB_INPUT_CURRENT) {
return global.input_mode;
}
if ((mode & (TB_INPUT_ESC | TB_INPUT_ALT)) == 0) {
mode |= TB_INPUT_ESC;
}
if ((mode & (TB_INPUT_ESC | TB_INPUT_ALT)) == (TB_INPUT_ESC | TB_INPUT_ALT))
{
mode &= ~TB_INPUT_ALT;
}
if (mode & TB_INPUT_MOUSE) {
bytebuf_puts(&global.out, TB_HARDCAP_ENTER_MOUSE);
bytebuf_flush(&global.out, global.wfd);
} else {
bytebuf_puts(&global.out, TB_HARDCAP_EXIT_MOUSE);
bytebuf_flush(&global.out, global.wfd);
}
global.input_mode = mode;
return TB_OK;
}
int tb_set_output_mode(int mode) {
if_not_init_return();
switch (mode) {
case TB_OUTPUT_CURRENT:
return global.output_mode;
case TB_OUTPUT_NORMAL:
case TB_OUTPUT_256:
case TB_OUTPUT_216:
case TB_OUTPUT_GRAYSCALE:
#if TB_OPT_ATTR_W >= 32
case TB_OUTPUT_TRUECOLOR:
#endif
global.last_fg = ~global.fg;
global.last_bg = ~global.bg;
global.output_mode = mode;
return TB_OK;
}
return TB_ERR;
}
int tb_peek_event(struct tb_event *event, int timeout_ms) {
if_not_init_return();
return wait_event(event, timeout_ms);
}
int tb_poll_event(struct tb_event *event) {
if_not_init_return();
return wait_event(event, -1);
}
int tb_get_fds(int *ttyfd, int *resizefd) {
if_not_init_return();
*ttyfd = global.rfd;
*resizefd = global.resize_pipefd[0];
return TB_OK;
}
int tb_print(int x, int y, uintattr_t fg, uintattr_t bg, const char *str) {
return tb_print_ex(x, y, fg, bg, NULL, str);
}
int tb_print_ex(int x, int y, uintattr_t fg, uintattr_t bg, size_t *out_w,
const char *str) {
int rv;
uint32_t uni;
int w, ix = x;
if (out_w) {
*out_w = 0;
}
while (*str) {
rv = tb_utf8_char_to_unicode(&uni, str);
if (rv < 0) {
uni = 0xfffd; // replace invalid UTF-8 char with U+FFFD
str += rv * -1;
} else if (rv > 0) {
str += rv;
} else {
break; // shouldn't get here
}
w = wcwidth((wchar_t)uni);
if (w < 0) w = 1;
if (w == 0 && x > ix) {
if_err_return(rv, tb_extend_cell(x - 1, y, uni));
} else {
if_err_return(rv, tb_set_cell(x, y, uni, fg, bg));
}
x += w;
if (out_w) {
*out_w += w;
}
}
return TB_OK;
}
int tb_printf(int x, int y, uintattr_t fg, uintattr_t bg, const char *fmt,
...) {
int rv;
va_list vl;
va_start(vl, fmt);
rv = tb_printf_inner(x, y, fg, bg, NULL, fmt, vl);
va_end(vl);
return rv;
}
int tb_printf_ex(int x, int y, uintattr_t fg, uintattr_t bg, size_t *out_w,
const char *fmt, ...) {
int rv;
va_list vl;
va_start(vl, fmt);
rv = tb_printf_inner(x, y, fg, bg, out_w, fmt, vl);
va_end(vl);
return rv;
}
int tb_send(const char *buf, size_t nbuf) {
return bytebuf_nputs(&global.out, buf, nbuf);
}
int tb_sendf(const char *fmt, ...) {
int rv;
char buf[TB_OPT_PRINTF_BUF];
va_list vl;
va_start(vl, fmt);
rv = vsnprintf(buf, sizeof(buf), fmt, vl);
va_end(vl);
if (rv < 0 || rv >= (int)sizeof(buf)) {
return TB_ERR;
}
return tb_send(buf, (size_t)rv);
}
int tb_set_func(int fn_type, int (*fn)(struct tb_event *, size_t *)) {
switch (fn_type) {
case TB_FUNC_EXTRACT_PRE:
global.fn_extract_esc_pre = fn;
return TB_OK;
case TB_FUNC_EXTRACT_POST:
global.fn_extract_esc_post = fn;
return TB_OK;
}
return TB_ERR;
}
struct tb_cell *tb_cell_buffer(void) {
if (!global.initialized) return NULL;
return global.back.cells;
}
int tb_utf8_char_length(char c) {
return utf8_length[(unsigned char)c];
}
int tb_utf8_char_to_unicode(uint32_t *out, const char *c) {
if (*c == '\0') return 0;
int i;
unsigned char len = tb_utf8_char_length(*c);
unsigned char mask = utf8_mask[len - 1];
uint32_t result = c[0] & mask;
for (i = 1; i < len && c[i] != '\0'; ++i) {
result <<= 6;
result |= c[i] & 0x3f;
}
if (i != len) return i * -1;
*out = result;
return (int)len;
}
int tb_utf8_unicode_to_char(char *out, uint32_t c) {
int len = 0;
int first;
int i;
if (c < 0x80) {
first = 0;
len = 1;
} else if (c < 0x800) {
first = 0xc0;
len = 2;
} else if (c < 0x10000) {
first = 0xe0;
len = 3;
} else if (c < 0x200000) {
first = 0xf0;
len = 4;
} else if (c < 0x4000000) {
first = 0xf8;
len = 5;
} else {
first = 0xfc;
len = 6;
}
for (i = len - 1; i > 0; --i) {
out[i] = (c & 0x3f) | 0x80;
c >>= 6;
}
out[0] = c | first;
out[len] = '\0';
return len;
}
int tb_last_errno(void) {
return global.last_errno;
}
const char *tb_strerror(int err) {
switch (err) {
case TB_OK:
return "Success";
case TB_ERR_NEED_MORE:
return "Not enough input";
case TB_ERR_INIT_ALREADY:
return "Termbox initialized already";
case TB_ERR_MEM:
return "Out of memory";
case TB_ERR_NO_EVENT:
return "No event";
case TB_ERR_NO_TERM:
return "No TERM in environment";
case TB_ERR_NOT_INIT:
return "Termbox not initialized";
case TB_ERR_OUT_OF_BOUNDS:
return "Out of bounds";
case TB_ERR_UNSUPPORTED_TERM:
return "Unsupported terminal";
case TB_ERR_CAP_COLLISION:
return "Termcaps collision";
case TB_ERR_RESIZE_SSCANF:
return "Terminal width/height not received by sscanf() after "
"resize";
case TB_ERR:
case TB_ERR_INIT_OPEN:
case TB_ERR_READ:
case TB_ERR_RESIZE_IOCTL:
case TB_ERR_RESIZE_PIPE:
case TB_ERR_RESIZE_SIGACTION:
case TB_ERR_POLL:
case TB_ERR_TCGETATTR:
case TB_ERR_TCSETATTR:
case TB_ERR_RESIZE_WRITE:
case TB_ERR_RESIZE_POLL:
case TB_ERR_RESIZE_READ:
default:
strerror_r(global.last_errno, global.errbuf, sizeof(global.errbuf));
return (const char *)global.errbuf;
}
}
int tb_has_truecolor(void) {
#if TB_OPT_ATTR_W >= 32
return 1;
#else
return 0;
#endif
}
int tb_has_egc(void) {
#ifdef TB_OPT_EGC
return 1;
#else
return 0;
#endif
}
int tb_attr_width(void) {
return TB_OPT_ATTR_W;
}
const char *tb_version(void) {
return TB_VERSION_STR;
}
static int tb_reset(void) {
int ttyfd_open = global.ttyfd_open;
memset(&global, 0, sizeof(global));
global.ttyfd = -1;
global.rfd = -1;
global.wfd = -1;
global.ttyfd_open = ttyfd_open;
global.resize_pipefd[0] = -1;
global.resize_pipefd[1] = -1;
global.width = -1;
global.height = -1;
global.cursor_x = -1;
global.cursor_y = -1;
global.last_x = -1;
global.last_y = -1;
global.fg = TB_DEFAULT;
global.bg = TB_DEFAULT;
global.last_fg = ~global.fg;
global.last_bg = ~global.bg;
global.input_mode = TB_INPUT_ESC;
global.output_mode = TB_OUTPUT_NORMAL;
return TB_OK;
}
static int init_term_attrs(void) {
if (global.ttyfd < 0) {
return TB_OK;
}
if (tcgetattr(global.ttyfd, &global.orig_tios) != 0) {
global.last_errno = errno;
return TB_ERR_TCGETATTR;
}
struct termios tios;
memcpy(&tios, &global.orig_tios, sizeof(tios));
global.has_orig_tios = 1;
cfmakeraw(&tios);
tios.c_cc[VMIN] = 1;
tios.c_cc[VTIME] = 0;
if (tcsetattr(global.ttyfd, TCSAFLUSH, &tios) != 0) {
global.last_errno = errno;
return TB_ERR_TCSETATTR;
}
return TB_OK;
}
int tb_printf_inner(int x, int y, uintattr_t fg, uintattr_t bg, size_t *out_w,
const char *fmt, va_list vl) {
int rv;
char buf[TB_OPT_PRINTF_BUF];
rv = vsnprintf(buf, sizeof(buf), fmt, vl);
if (rv < 0 || rv >= (int)sizeof(buf)) {
return TB_ERR;
}
return tb_print_ex(x, y, fg, bg, out_w, buf);
}
static int init_term_caps(void) {
if (load_terminfo() == TB_OK) {
return parse_terminfo_caps();
}
return load_builtin_caps();
}
static int init_cap_trie(void) {
int rv, i;
// Add caps from terminfo or built-in
//
// Collisions are expected as some terminfo entries have dupes. (For
// example, att605-pc collides on TB_CAP_F4 and TB_CAP_DELETE.) First cap
// in TB_CAP_* index order will win.
//
// TODO Reorder TB_CAP_* so more critical caps come first.
for (i = 0; i < TB_CAP__COUNT_KEYS; i++) {
rv = cap_trie_add(global.caps[i], tb_key_i(i), 0);
if (rv != TB_OK && rv != TB_ERR_CAP_COLLISION) return rv;
}
// Add built-in mod caps
//
// Collisions are OK here as well. This can happen if global.caps collides
// with builtin_mod_caps. It is desirable to give precedence to global.caps
// here.
for (i = 0; builtin_mod_caps[i].cap != NULL; i++) {
rv = cap_trie_add(builtin_mod_caps[i].cap, builtin_mod_caps[i].key,
builtin_mod_caps[i].mod);
if (rv != TB_OK && rv != TB_ERR_CAP_COLLISION) return rv;
}
return TB_OK;
}
static int cap_trie_add(const char *cap, uint16_t key, uint8_t mod) {
struct cap_trie_t *next, *node = &global.cap_trie;
size_t i, j;
if (!cap || strlen(cap) <= 0) return TB_OK; // Nothing to do for empty caps
for (i = 0; cap[i] != '\0'; i++) {
char c = cap[i];
next = NULL;
// Check if c is already a child of node
for (j = 0; j < node->nchildren; j++) {
if (node->children[j].c == c) {
next = &node->children[j];
break;
}
}
if (!next) {
// We need to add a new child to node
node->nchildren += 1;
node->children =
tb_realloc(node->children, sizeof(*node) * node->nchildren);
if (!node->children) {
return TB_ERR_MEM;
}
next = &node->children[node->nchildren - 1];
memset(next, 0, sizeof(*next));
next->c = c;
}
// Continue
node = next;
}
if (node->is_leaf) {
// Already a leaf here
return TB_ERR_CAP_COLLISION;
}
node->is_leaf = 1;
node->key = key;
node->mod = mod;
return TB_OK;
}
static int cap_trie_find(const char *buf, size_t nbuf, struct cap_trie_t **last,
size_t *depth) {
struct cap_trie_t *next, *node = &global.cap_trie;
size_t i, j;
*last = node;
*depth = 0;
for (i = 0; i < nbuf; i++) {
char c = buf[i];
next = NULL;
// Find c in node.children
for (j = 0; j < node->nchildren; j++) {
if (node->children[j].c == c) {
next = &node->children[j];
break;
}
}
if (!next) {
// Not found
return TB_OK;
}
node = next;
*last = node;
*depth += 1;
if (node->is_leaf && node->nchildren < 1) {
break;
}
}
return TB_OK;
}
static int cap_trie_deinit(struct cap_trie_t *node) {
size_t j;
for (j = 0; j < node->nchildren; j++) {
cap_trie_deinit(&node->children[j]);
}
if (node->children) {
tb_free(node->children);
}
memset(node, 0, sizeof(*node));
return TB_OK;
}
static int init_resize_handler(void) {
if (pipe(global.resize_pipefd) != 0) {
global.last_errno = errno;
return TB_ERR_RESIZE_PIPE;
}
struct sigaction sa;
memset(&sa, 0, sizeof(sa));
sa.sa_handler = handle_resize;
if (sigaction(SIGWINCH, &sa, NULL) != 0) {
global.last_errno = errno;
return TB_ERR_RESIZE_SIGACTION;
}
return TB_OK;
}
static int send_init_escape_codes(void) {
int rv;
if_err_return(rv, bytebuf_puts(&global.out, global.caps[TB_CAP_ENTER_CA]));
if_err_return(rv,
bytebuf_puts(&global.out, global.caps[TB_CAP_ENTER_KEYPAD]));
if_err_return(rv,
bytebuf_puts(&global.out, global.caps[TB_CAP_HIDE_CURSOR]));
return TB_OK;
}
static int send_clear(void) {
int rv;
if_err_return(rv, send_attr(global.fg, global.bg));
if_err_return(rv,
bytebuf_puts(&global.out, global.caps[TB_CAP_CLEAR_SCREEN]));
if_err_return(rv, send_cursor_if(global.cursor_x, global.cursor_y));
if_err_return(rv, bytebuf_flush(&global.out, global.wfd));
global.last_x = -1;
global.last_y = -1;
return TB_OK;
}
static int update_term_size(void) {
int rv, ioctl_errno;
if (global.ttyfd < 0) {
return TB_OK;
}
struct winsize sz;
memset(&sz, 0, sizeof(sz));
// Try ioctl TIOCGWINSZ
if (ioctl(global.ttyfd, TIOCGWINSZ, &sz) == 0) {
global.width = sz.ws_col;
global.height = sz.ws_row;
return TB_OK;
}
ioctl_errno = errno;
// Try >cursor(9999,9999), >u7, <u6
if_ok_return(rv, update_term_size_via_esc());
global.last_errno = ioctl_errno;
return TB_ERR_RESIZE_IOCTL;
}
static int update_term_size_via_esc(void) {
#ifndef TB_RESIZE_FALLBACK_MS
#define TB_RESIZE_FALLBACK_MS 1000
#endif
char *move_and_report = "\x1b[9999;9999H\x1b[6n";
ssize_t write_rv =
write(global.wfd, move_and_report, strlen(move_and_report));
if (write_rv != (ssize_t)strlen(move_and_report)) {
return TB_ERR_RESIZE_WRITE;
}
fd_set fds;
FD_ZERO(&fds);
FD_SET(global.rfd, &fds);
struct timeval timeout;
timeout.tv_sec = 0;
timeout.tv_usec = TB_RESIZE_FALLBACK_MS * 1000;
int select_rv = select(global.rfd + 1, &fds, NULL, NULL, &timeout);
if (select_rv != 1) {
global.last_errno = errno;
return TB_ERR_RESIZE_POLL;
}
char buf[TB_OPT_READ_BUF];
ssize_t read_rv = read(global.rfd, buf, sizeof(buf) - 1);
if (read_rv < 1) {
global.last_errno = errno;
return TB_ERR_RESIZE_READ;
}
buf[read_rv] = '\0';
int rw, rh;
if (sscanf(buf, "\x1b[%d;%dR", &rh, &rw) != 2) {
return TB_ERR_RESIZE_SSCANF;
}
global.width = rw;
global.height = rh;
return TB_OK;
}
static int init_cellbuf(void) {
int rv;
if_err_return(rv, cellbuf_init(&global.back, global.width, global.height));
if_err_return(rv, cellbuf_init(&global.front, global.width, global.height));
if_err_return(rv, cellbuf_clear(&global.back));
if_err_return(rv, cellbuf_clear(&global.front));
return TB_OK;
}
static int tb_deinit(void) {
if (global.caps[0] != NULL && global.wfd >= 0) {
bytebuf_puts(&global.out, global.caps[TB_CAP_SHOW_CURSOR]);
bytebuf_puts(&global.out, global.caps[TB_CAP_SGR0]);
bytebuf_puts(&global.out, global.caps[TB_CAP_CLEAR_SCREEN]);
bytebuf_puts(&global.out, global.caps[TB_CAP_EXIT_CA]);
bytebuf_puts(&global.out, global.caps[TB_CAP_EXIT_KEYPAD]);
bytebuf_puts(&global.out, TB_HARDCAP_EXIT_MOUSE);
bytebuf_flush(&global.out, global.wfd);
}
if (global.ttyfd >= 0) {
if (global.has_orig_tios) {
tcsetattr(global.ttyfd, TCSAFLUSH, &global.orig_tios);
}
if (global.ttyfd_open) {
close(global.ttyfd);
global.ttyfd_open = 0;
}
}
sigaction(SIGWINCH, &(struct sigaction){.sa_handler = SIG_DFL}, NULL);
if (global.resize_pipefd[0] >= 0) close(global.resize_pipefd[0]);
if (global.resize_pipefd[1] >= 0) close(global.resize_pipefd[1]);
cellbuf_free(&global.back);
cellbuf_free(&global.front);
bytebuf_free(&global.in);
bytebuf_free(&global.out);
if (global.terminfo) tb_free(global.terminfo);
cap_trie_deinit(&global.cap_trie);
tb_reset();
return TB_OK;
}
static int load_terminfo(void) {
int rv;
char tmp[TB_PATH_MAX];
// See terminfo(5) "Fetching Compiled Descriptions" for a description of
// this behavior. Some of these paths are compile-time ncurses options, so
// best guesses are used here.
const char *term = getenv("TERM");
if (!term) {
return TB_ERR;
}
// If TERMINFO is set, try that directory and stop
const char *terminfo = getenv("TERMINFO");
if (terminfo) {
return load_terminfo_from_path(terminfo, term);
}
// Next try ~/.terminfo
const char *home = getenv("HOME");
if (home) {
snprintf_or_return(rv, tmp, sizeof(tmp), "%s/.terminfo", home);
if_ok_return(rv, load_terminfo_from_path(tmp, term));
}
// Next try TERMINFO_DIRS
//
// Note, empty entries are supposed to be interpretted as the "compiled-in
// default", which is of course system-dependent. Previously /etc/terminfo
// was used here. Let's skip empty entries altogether rather than give
// precedence to a guess, and check common paths after this loop.
const char *dirs = getenv("TERMINFO_DIRS");
if (dirs) {
snprintf_or_return(rv, tmp, sizeof(tmp), "%s", dirs);
char *dir = strtok(tmp, ":");
while (dir) {
const char *cdir = dir;
if (*cdir != '\0') {
if_ok_return(rv, load_terminfo_from_path(cdir, term));
}
dir = strtok(NULL, ":");
}
}
#ifdef TB_TERMINFO_DIR
if_ok_return(rv, load_terminfo_from_path(TB_TERMINFO_DIR, term));
#endif
if_ok_return(rv, load_terminfo_from_path("/usr/local/etc/terminfo", term));
if_ok_return(rv,
load_terminfo_from_path("/usr/local/share/terminfo", term));
if_ok_return(rv, load_terminfo_from_path("/usr/local/lib/terminfo", term));
if_ok_return(rv, load_terminfo_from_path("/etc/terminfo", term));
if_ok_return(rv, load_terminfo_from_path("/usr/share/terminfo", term));
if_ok_return(rv, load_terminfo_from_path("/usr/lib/terminfo", term));
if_ok_return(rv, load_terminfo_from_path("/usr/share/lib/terminfo", term));
if_ok_return(rv, load_terminfo_from_path("/lib/terminfo", term));
return TB_ERR;
}
static int load_terminfo_from_path(const char *path, const char *term) {
int rv;
char tmp[TB_PATH_MAX];
// Look for term at this terminfo location, e.g., <terminfo>/x/xterm
snprintf_or_return(rv, tmp, sizeof(tmp), "%s/%c/%s", path, term[0], term);
if_ok_return(rv, read_terminfo_path(tmp));
#ifdef __APPLE__
// Try the Darwin equivalent path, e.g., <terminfo>/78/xterm
snprintf_or_return(rv, tmp, sizeof(tmp), "%s/%x/%s", path, term[0], term);
return read_terminfo_path(tmp);
#endif
return TB_ERR;
}
static int read_terminfo_path(const char *path) {
FILE *fp = fopen(path, "rb");
if (!fp) {
return TB_ERR;
}
struct stat st;
if (fstat(fileno(fp), &st) != 0) {
fclose(fp);
return TB_ERR;
}
size_t fsize = st.st_size;
char *data = tb_malloc(fsize);
if (!data) {
fclose(fp);
return TB_ERR;
}
if (fread(data, 1, fsize, fp) != fsize) {
fclose(fp);
tb_free(data);
return TB_ERR;
}
global.terminfo = data;
global.nterminfo = fsize;
fclose(fp);
return TB_OK;
}
static int parse_terminfo_caps(void) {
// See term(5) "LEGACY STORAGE FORMAT" and "EXTENDED STORAGE FORMAT" for a
// description of this behavior.
// Ensure there's at least a header's worth of data
if (global.nterminfo < 6) {
return TB_ERR;
}
int16_t *header = (int16_t *)global.terminfo;
// header[0] the magic number (octal 0432 or 01036)
// header[1] the size, in bytes, of the names section
// header[2] the number of bytes in the boolean section
// header[3] the number of short integers in the numbers section
// header[4] the number of offsets (short integers) in the strings section
// header[5] the size, in bytes, of the string table
// Legacy ints are 16-bit, extended ints are 32-bit
const int bytes_per_int = header[0] == 01036 ? 4 // 32-bit
: 2; // 16-bit
// > Between the boolean section and the number section, a null byte will be
// > inserted, if necessary, to ensure that the number section begins on an
// > even byte
const int align_offset = (header[1] + header[2]) % 2 != 0 ? 1 : 0;
const int pos_str_offsets =
(6 * sizeof(int16_t)) // header (12 bytes)
+ header[1] // length of names section
+ header[2] // length of boolean section
+ align_offset +
(header[3] * bytes_per_int); // length of numbers section
const int pos_str_table =
pos_str_offsets +
(header[4] * sizeof(int16_t)); // length of string offsets table
// Load caps
int i;
for (i = 0; i < TB_CAP__COUNT; i++) {
const char *cap = get_terminfo_string(pos_str_offsets, header[4],
pos_str_table, header[5], terminfo_cap_indexes[i]);
if (!cap) {
// Something is not right
return TB_ERR;
}
global.caps[i] = cap;
}
return TB_OK;
}
static int load_builtin_caps(void) {
int i, j;
const char *term = getenv("TERM");
if (!term) {
return TB_ERR_NO_TERM;
}
// Check for exact TERM match
for (i = 0; builtin_terms[i].name != NULL; i++) {
if (strcmp(term, builtin_terms[i].name) == 0) {
for (j = 0; j < TB_CAP__COUNT; j++) {
global.caps[j] = builtin_terms[i].caps[j];
}
return TB_OK;
}
}
// Check for partial TERM or alias match
for (i = 0; builtin_terms[i].name != NULL; i++) {
if (strstr(term, builtin_terms[i].name) != NULL ||
(*(builtin_terms[i].alias) != '\0' &&
strstr(term, builtin_terms[i].alias) != NULL))
{
for (j = 0; j < TB_CAP__COUNT; j++) {
global.caps[j] = builtin_terms[i].caps[j];
}
return TB_OK;
}
}
return TB_ERR_UNSUPPORTED_TERM;
}
static const char *get_terminfo_string(int16_t str_offsets_pos,
int16_t str_offsets_len, int16_t str_table_pos, int16_t str_table_len,
int16_t str_index) {
const int str_byte_index = (int)str_index * (int)sizeof(int16_t);
if (str_byte_index >= (int)str_offsets_len * (int)sizeof(int16_t)) {
// An offset beyond the table indicates absent
// See `convert_strings` in tinfo `read_entry.c`
return "";
}
const int16_t *str_offset =
(int16_t *)(global.terminfo + (int)str_offsets_pos + str_byte_index);
if ((char *)str_offset >= global.terminfo + global.nterminfo) {
// str_offset points beyond end of entry
// Truncated/corrupt terminfo entry?
return NULL;
}
if (*str_offset < 0 || *str_offset >= str_table_len) {
// A negative offset indicates absent
// An offset beyond the table indicates absent
// See `convert_strings` in tinfo `read_entry.c`
return "";
}
if (((size_t)((int)str_table_pos + (int)*str_offset)) >= global.nterminfo) {
// string points beyond end of entry
// Truncated/corrupt terminfo entry?
return NULL;
}
return (
const char *)(global.terminfo + (int)str_table_pos + (int)*str_offset);
}
static int wait_event(struct tb_event *event, int timeout) {
int rv;
char buf[TB_OPT_READ_BUF];
memset(event, 0, sizeof(*event));
if_ok_return(rv, extract_event(event));
fd_set fds;
struct timeval tv;
tv.tv_sec = timeout / 1000;
tv.tv_usec = (timeout - (tv.tv_sec * 1000)) * 1000;
do {
FD_ZERO(&fds);
FD_SET(global.rfd, &fds);
FD_SET(global.resize_pipefd[0], &fds);
int maxfd = global.resize_pipefd[0] > global.rfd
? global.resize_pipefd[0]
: global.rfd;
int select_rv =
select(maxfd + 1, &fds, NULL, NULL, (timeout < 0) ? NULL : &tv);
if (select_rv < 0) {
// Let EINTR/EAGAIN bubble up
global.last_errno = errno;
return TB_ERR_POLL;
} else if (select_rv == 0) {
return TB_ERR_NO_EVENT;
}
int tty_has_events = (FD_ISSET(global.rfd, &fds));
int resize_has_events = (FD_ISSET(global.resize_pipefd[0], &fds));
if (tty_has_events) {
ssize_t read_rv = read(global.rfd, buf, sizeof(buf));
if (read_rv < 0) {
global.last_errno = errno;
return TB_ERR_READ;
} else if (read_rv > 0) {
bytebuf_nputs(&global.in, buf, read_rv);
}
}
if (resize_has_events) {
int ignore = 0;
read(global.resize_pipefd[0], &ignore, sizeof(ignore));
// TODO Harden against errors encountered mid-resize
if_err_return(rv, update_term_size());
if_err_return(rv, resize_cellbufs());
event->type = TB_EVENT_RESIZE;
event->w = global.width;
event->h = global.height;
return TB_OK;
}
memset(event, 0, sizeof(*event));
if_ok_return(rv, extract_event(event));
} while (timeout == -1);
return rv;
}
static int extract_event(struct tb_event *event) {
int rv;
struct bytebuf_t *in = &global.in;
if (in->len == 0) {
return TB_ERR;
}
if (in->buf[0] == '\x1b') {
// Escape sequence?
// In TB_INPUT_ESC, skip if the buffer is a single escape char
if (!((global.input_mode & TB_INPUT_ESC) && in->len == 1)) {
if_ok_or_need_more_return(rv, extract_esc(event));
}
// Escape key?
if (global.input_mode & TB_INPUT_ESC) {
event->type = TB_EVENT_KEY;
event->ch = 0;
event->key = TB_KEY_ESC;
event->mod = 0;
bytebuf_shift(in, 1);
return TB_OK;
}
// Recurse for alt key
event->mod |= TB_MOD_ALT;
bytebuf_shift(in, 1);
return extract_event(event);
}
// ASCII control key?
if ((uint16_t)in->buf[0] < TB_KEY_SPACE || in->buf[0] == TB_KEY_BACKSPACE2)
{
event->type = TB_EVENT_KEY;
event->ch = 0;
event->key = (uint16_t)in->buf[0];
event->mod |= TB_MOD_CTRL;
bytebuf_shift(in, 1);
return TB_OK;
}
// UTF-8?
if (in->len >= (size_t)tb_utf8_char_length(in->buf[0])) {
event->type = TB_EVENT_KEY;
tb_utf8_char_to_unicode(&event->ch, in->buf);
event->key = 0;
bytebuf_shift(in, tb_utf8_char_length(in->buf[0]));
return TB_OK;
}
// Need more input
return TB_ERR;
}
static int extract_esc(struct tb_event *event) {
int rv;
if_ok_or_need_more_return(rv, extract_esc_user(event, 0));
if_ok_or_need_more_return(rv, extract_esc_cap(event));
if_ok_or_need_more_return(rv, extract_esc_mouse(event));
if_ok_or_need_more_return(rv, extract_esc_user(event, 1));
return TB_ERR;
}
static int extract_esc_user(struct tb_event *event, int is_post) {
int rv;
size_t consumed = 0;
struct bytebuf_t *in = &global.in;
int (*fn)(struct tb_event *, size_t *);
fn = is_post ? global.fn_extract_esc_post : global.fn_extract_esc_pre;
if (!fn) {
return TB_ERR;
}
rv = fn(event, &consumed);
if (rv == TB_OK) {
bytebuf_shift(in, consumed);
}
if_ok_or_need_more_return(rv, rv);
return TB_ERR;
}
static int extract_esc_cap(struct tb_event *event) {
int rv;
struct bytebuf_t *in = &global.in;
struct cap_trie_t *node;
size_t depth;
if_err_return(rv, cap_trie_find(in->buf, in->len, &node, &depth));
if (node->is_leaf) {
// Found a leaf node
event->type = TB_EVENT_KEY;
event->ch = 0;
event->key = node->key;
event->mod = node->mod;
bytebuf_shift(in, depth);
return TB_OK;
} else if (node->nchildren > 0 && in->len <= depth) {
// Found a branch node (not enough input)
return TB_ERR_NEED_MORE;
}
return TB_ERR;
}
static int extract_esc_mouse(struct tb_event *event) {
struct bytebuf_t *in = &global.in;
enum type { TYPE_VT200 = 0, TYPE_1006, TYPE_1015, TYPE_MAX };
const char *cmp[TYPE_MAX] = {//
// X10 mouse encoding, the simplest one
// \x1b [ M Cb Cx Cy
[TYPE_VT200] = "\x1b[M",
// xterm 1006 extended mode or urxvt 1015 extended mode
// xterm: \x1b [ < Cb ; Cx ; Cy (M or m)
[TYPE_1006] = "\x1b[<",
// urxvt: \x1b [ Cb ; Cx ; Cy M
[TYPE_1015] = "\x1b["};
enum type type = 0;
int ret = TB_ERR;
// Unrolled at compile-time (probably)
for (; type < TYPE_MAX; type++) {
size_t size = strlen(cmp[type]);
if (in->len >= size && (strncmp(cmp[type], in->buf, size)) == 0) {
break;
}
}
if (type == TYPE_MAX) {
ret = TB_ERR; // No match
return ret;
}
size_t buf_shift = 0;
switch (type) {
case TYPE_VT200:
if (in->len >= 6) {
int b = in->buf[3] - 0x20;
int fail = 0;
switch (b & 3) {
case 0:
event->key = ((b & 64) != 0) ? TB_KEY_MOUSE_WHEEL_UP
: TB_KEY_MOUSE_LEFT;
break;
case 1:
event->key = ((b & 64) != 0) ? TB_KEY_MOUSE_WHEEL_DOWN
: TB_KEY_MOUSE_MIDDLE;
break;
case 2:
event->key = TB_KEY_MOUSE_RIGHT;
break;
case 3:
event->key = TB_KEY_MOUSE_RELEASE;
break;
default:
ret = TB_ERR;
fail = 1;
break;
}
if (!fail) {
if ((b & 32) != 0) {
event->mod |= TB_MOD_MOTION;
}
// the coord is 1,1 for upper left
event->x = ((uint8_t)in->buf[4]) - 0x21;
event->y = ((uint8_t)in->buf[5]) - 0x21;
ret = TB_OK;
}
buf_shift = 6;
}
break;
case TYPE_1006:
// fallthrough
case TYPE_1015: {
size_t index_fail = (size_t)-1;
enum {
FIRST_M = 0,
FIRST_SEMICOLON,
LAST_SEMICOLON,
FIRST_LAST_MAX
};
size_t indices[FIRST_LAST_MAX] = {index_fail, index_fail,
index_fail};
int m_is_capital = 0;
for (size_t i = 0; i < in->len; i++) {
if (in->buf[i] == ';') {
if (indices[FIRST_SEMICOLON] == index_fail) {
indices[FIRST_SEMICOLON] = i;
} else {
indices[LAST_SEMICOLON] = i;
}
} else if (indices[FIRST_M] == index_fail) {
if (in->buf[i] == 'm' || in->buf[i] == 'M') {
m_is_capital = (in->buf[i] == 'M');
indices[FIRST_M] = i;
}
}
}
if (indices[FIRST_M] == index_fail ||
indices[FIRST_SEMICOLON] == index_fail ||
indices[LAST_SEMICOLON] == index_fail)
{
ret = TB_ERR;
} else {
int start = (type == TYPE_1015 ? 2 : 3);
unsigned n1 = strtoul(&in->buf[start], NULL, 10);
unsigned n2 =
strtoul(&in->buf[indices[FIRST_SEMICOLON] + 1], NULL, 10);
unsigned n3 =
strtoul(&in->buf[indices[LAST_SEMICOLON] + 1], NULL, 10);
if (type == TYPE_1015) {
n1 -= 0x20;
}
int fail = 0;
switch (n1 & 3) {
case 0:
event->key = ((n1 & 64) != 0) ? TB_KEY_MOUSE_WHEEL_UP
: TB_KEY_MOUSE_LEFT;
break;
case 1:
event->key = ((n1 & 64) != 0) ? TB_KEY_MOUSE_WHEEL_DOWN
: TB_KEY_MOUSE_MIDDLE;
break;
case 2:
event->key = TB_KEY_MOUSE_RIGHT;
break;
case 3:
event->key = TB_KEY_MOUSE_RELEASE;
break;
default:
ret = TB_ERR;
fail = 1;
break;
}
buf_shift = in->len;
if (!fail) {
if (!m_is_capital) {
// on xterm mouse release is signaled by lowercase m
event->key = TB_KEY_MOUSE_RELEASE;
}
if ((n1 & 32) != 0) {
event->mod |= TB_MOD_MOTION;
}
event->x = ((uint8_t)n2) - 1;
event->y = ((uint8_t)n3) - 1;
ret = TB_OK;
}
}
} break;
case TYPE_MAX:
ret = TB_ERR;
}
if (buf_shift > 0) {
bytebuf_shift(in, buf_shift);
}
if (ret == TB_OK) {
event->type = TB_EVENT_MOUSE;
}
return ret;
}
static int resize_cellbufs(void) {
int rv;
if_err_return(rv,
cellbuf_resize(&global.back, global.width, global.height));
if_err_return(rv,
cellbuf_resize(&global.front, global.width, global.height));
if_err_return(rv, cellbuf_clear(&global.front));
if_err_return(rv, send_clear());
return TB_OK;
}
static void handle_resize(int sig) {
int errno_copy = errno;
write(global.resize_pipefd[1], &sig, sizeof(sig));
errno = errno_copy;
}
static int send_attr(uintattr_t fg, uintattr_t bg) {
int rv;
if (fg == global.last_fg && bg == global.last_bg) {
return TB_OK;
}
if_err_return(rv, bytebuf_puts(&global.out, global.caps[TB_CAP_SGR0]));
uint32_t cfg, cbg;
switch (global.output_mode) {
default:
case TB_OUTPUT_NORMAL:
// The minus 1 below is because our colors are 1-indexed starting
// from black. Black is represented by a 30, 40, 90, or 100 for fg,
// bg, bright fg, or bright bg respectively. Red is 31, 41, 91,
// 101, etc.
cfg = (fg & TB_BRIGHT ? 90 : 30) + (fg & 0x0f) - 1;
cbg = (bg & TB_BRIGHT ? 100 : 40) + (bg & 0x0f) - 1;
break;
case TB_OUTPUT_256:
cfg = fg & 0xff;
cbg = bg & 0xff;
if (fg & TB_HI_BLACK) cfg = 0;
if (bg & TB_HI_BLACK) cbg = 0;
break;
case TB_OUTPUT_216:
cfg = fg & 0xff;
cbg = bg & 0xff;
if (cfg > 216) cfg = 216;
if (cbg > 216) cbg = 216;
cfg += 0x0f;
cbg += 0x0f;
break;
case TB_OUTPUT_GRAYSCALE:
cfg = fg & 0xff;
cbg = bg & 0xff;
if (cfg > 24) cfg = 24;
if (cbg > 24) cbg = 24;
cfg += 0xe7;
cbg += 0xe7;
break;
#if TB_OPT_ATTR_W >= 32
case TB_OUTPUT_TRUECOLOR:
cfg = fg & 0xffffff;
cbg = bg & 0xffffff;
if (fg & TB_HI_BLACK) cfg = 0;
if (bg & TB_HI_BLACK) cbg = 0;
break;
#endif
}
if (fg & TB_BOLD)
if_err_return(rv, bytebuf_puts(&global.out, global.caps[TB_CAP_BOLD]));
if (fg & TB_BLINK)
if_err_return(rv, bytebuf_puts(&global.out, global.caps[TB_CAP_BLINK]));
if (fg & TB_UNDERLINE)
if_err_return(rv,
bytebuf_puts(&global.out, global.caps[TB_CAP_UNDERLINE]));
if (fg & TB_ITALIC)
if_err_return(rv,
bytebuf_puts(&global.out, global.caps[TB_CAP_ITALIC]));
if (fg & TB_DIM)
if_err_return(rv, bytebuf_puts(&global.out, global.caps[TB_CAP_DIM]));
#if TB_OPT_ATTR_W == 64
if (fg & TB_STRIKEOUT)
if_err_return(rv, bytebuf_puts(&global.out, TB_HARDCAP_STRIKEOUT));
if (fg & TB_UNDERLINE_2)
if_err_return(rv, bytebuf_puts(&global.out, TB_HARDCAP_UNDERLINE_2));
if (fg & TB_OVERLINE)
if_err_return(rv, bytebuf_puts(&global.out, TB_HARDCAP_OVERLINE));
if (fg & TB_INVISIBLE)
if_err_return(rv,
bytebuf_puts(&global.out, global.caps[TB_CAP_INVISIBLE]));
#endif
if ((fg & TB_REVERSE) || (bg & TB_REVERSE))
if_err_return(rv,
bytebuf_puts(&global.out, global.caps[TB_CAP_REVERSE]));
int fg_is_default = (fg & 0xff) == 0;
int bg_is_default = (bg & 0xff) == 0;
if (global.output_mode == TB_OUTPUT_256) {
if (fg & TB_HI_BLACK) fg_is_default = 0;
if (bg & TB_HI_BLACK) bg_is_default = 0;
}
#if TB_OPT_ATTR_W >= 32
if (global.output_mode == TB_OUTPUT_TRUECOLOR) {
fg_is_default = ((fg & 0xffffff) == 0) && ((fg & TB_HI_BLACK) == 0);
bg_is_default = ((bg & 0xffffff) == 0) && ((bg & TB_HI_BLACK) == 0);
}
#endif
if_err_return(rv, send_sgr(cfg, cbg, fg_is_default, bg_is_default));
global.last_fg = fg;
global.last_bg = bg;
return TB_OK;
}
static int send_sgr(uint32_t cfg, uint32_t cbg, int fg_is_default,
int bg_is_default) {
int rv;
char nbuf[32];
if (fg_is_default && bg_is_default) {
return TB_OK;
}
switch (global.output_mode) {
default:
case TB_OUTPUT_NORMAL:
send_literal(rv, "\x1b[");
if (!fg_is_default) {
send_num(rv, nbuf, cfg);
if (!bg_is_default) {
send_literal(rv, ";");
}
}
if (!bg_is_default) {
send_num(rv, nbuf, cbg);
}
send_literal(rv, "m");
break;
case TB_OUTPUT_256:
case TB_OUTPUT_216:
case TB_OUTPUT_GRAYSCALE:
send_literal(rv, "\x1b[");
if (!fg_is_default) {
send_literal(rv, "38;5;");
send_num(rv, nbuf, cfg);
if (!bg_is_default) {
send_literal(rv, ";");
}
}
if (!bg_is_default) {
send_literal(rv, "48;5;");
send_num(rv, nbuf, cbg);
}
send_literal(rv, "m");
break;
#if TB_OPT_ATTR_W >= 32
case TB_OUTPUT_TRUECOLOR:
send_literal(rv, "\x1b[");
if (!fg_is_default) {
send_literal(rv, "38;2;");
send_num(rv, nbuf, (cfg >> 16) & 0xff);
send_literal(rv, ";");
send_num(rv, nbuf, (cfg >> 8) & 0xff);
send_literal(rv, ";");
send_num(rv, nbuf, cfg & 0xff);
if (!bg_is_default) {
send_literal(rv, ";");
}
}
if (!bg_is_default) {
send_literal(rv, "48;2;");
send_num(rv, nbuf, (cbg >> 16) & 0xff);
send_literal(rv, ";");
send_num(rv, nbuf, (cbg >> 8) & 0xff);
send_literal(rv, ";");
send_num(rv, nbuf, cbg & 0xff);
}
send_literal(rv, "m");
break;
#endif
}
return TB_OK;
}
static int send_cursor_if(int x, int y) {
int rv;
char nbuf[32];
if (x < 0 || y < 0) {
return TB_OK;
}
send_literal(rv, "\x1b[");
send_num(rv, nbuf, y + 1);
send_literal(rv, ";");
send_num(rv, nbuf, x + 1);
send_literal(rv, "H");
return TB_OK;
}
static int send_char(int x, int y, uint32_t ch) {
return send_cluster(x, y, &ch, 1);
}
static int send_cluster(int x, int y, uint32_t *ch, size_t nch) {
int rv;
char chu8[8];
if (global.last_x != x - 1 || global.last_y != y) {
if_err_return(rv, send_cursor_if(x, y));
}
global.last_x = x;
global.last_y = y;
int i;
for (i = 0; i < (int)nch; i++) {
uint32_t ch32 = *(ch + i);
int chu8_len;
if (ch32 == 0) { // replace null with space (from termbox 19dbee5)
chu8_len = 1;
chu8[0] = ' ';
} else {
chu8_len = tb_utf8_unicode_to_char(chu8, ch32);
}
if_err_return(rv, bytebuf_nputs(&global.out, chu8, (size_t)chu8_len));
}
return TB_OK;
}
static int convert_num(uint32_t num, char *buf) {
int i, l = 0;
char ch;
do {
/* '0' = 48; 48 + num%10 < 58 < MAX_8bitCHAR */
buf[l++] = (char)('0' + (num % 10));
num /= 10;
} while (num);
for (i = 0; i < l / 2; i++) {
ch = buf[i];
buf[i] = buf[l - 1 - i];
buf[l - 1 - i] = ch;
}
return l;
}
static int cell_cmp(struct tb_cell *a, struct tb_cell *b) {
if (a->ch != b->ch || a->fg != b->fg || a->bg != b->bg) {
return 1;
}
#ifdef TB_OPT_EGC
if (a->nech != b->nech) {
return 1;
} else if (a->nech > 0) { // a->nech == b->nech
return memcmp(a->ech, b->ech, a->nech);
}
#endif
return 0;
}
static int cell_copy(struct tb_cell *dst, struct tb_cell *src) {
#ifdef TB_OPT_EGC
if (src->nech > 0) {
return cell_set(dst, src->ech, src->nech, src->fg, src->bg);
}
#endif
return cell_set(dst, &src->ch, 1, src->fg, src->bg);
}
static int cell_set(struct tb_cell *cell, uint32_t *ch, size_t nch,
uintattr_t fg, uintattr_t bg) {
cell->ch = ch ? *ch : 0;
cell->fg = fg;
cell->bg = bg;
#ifdef TB_OPT_EGC
if (nch <= 1) {
cell->nech = 0;
} else {
int rv;
if_err_return(rv, cell_reserve_ech(cell, nch + 1));
memcpy(cell->ech, ch, sizeof(ch) * nch);
cell->ech[nch] = '\0';
cell->nech = nch;
}
#else
(void)nch;
(void)cell_reserve_ech;
#endif
return TB_OK;
}
static int cell_reserve_ech(struct tb_cell *cell, size_t n) {
#ifdef TB_OPT_EGC
if (cell->cech >= n) {
return TB_OK;
}
if (!(cell->ech = tb_realloc(cell->ech, n * sizeof(cell->ch)))) {
return TB_ERR_MEM;
}
cell->cech = n;
return TB_OK;
#else
(void)cell;
(void)n;
return TB_ERR;
#endif
}
static int cell_free(struct tb_cell *cell) {
#ifdef TB_OPT_EGC
if (cell->ech) {
tb_free(cell->ech);
}
#endif
memset(cell, 0, sizeof(*cell));
return TB_OK;
}
static int cellbuf_init(struct cellbuf_t *c, int w, int h) {
c->cells = tb_malloc(sizeof(struct tb_cell) * w * h);
if (!c->cells) {
return TB_ERR_MEM;
}
memset(c->cells, 0, sizeof(struct tb_cell) * w * h);
c->width = w;
c->height = h;
return TB_OK;
}
static int cellbuf_free(struct cellbuf_t *c) {
if (c->cells) {
int i;
for (i = 0; i < c->width * c->height; i++) {
cell_free(&c->cells[i]);
}
tb_free(c->cells);
}
memset(c, 0, sizeof(*c));
return TB_OK;
}
static int cellbuf_clear(struct cellbuf_t *c) {
int rv, i;
uint32_t space = (uint32_t)' ';
for (i = 0; i < c->width * c->height; i++) {
if_err_return(rv,
cell_set(&c->cells[i], &space, 1, global.fg, global.bg));
}
return TB_OK;
}
static int cellbuf_get(struct cellbuf_t *c, int x, int y,
struct tb_cell **out) {
if (x < 0 || x >= c->width || y < 0 || y >= c->height) {
*out = NULL;
return TB_ERR_OUT_OF_BOUNDS;
}
*out = &c->cells[(y * c->width) + x];
return TB_OK;
}
static int cellbuf_resize(struct cellbuf_t *c, int w, int h) {
int rv;
int ow = c->width;
int oh = c->height;
if (ow == w && oh == h) {
return TB_OK;
}
w = w < 1 ? 1 : w;
h = h < 1 ? 1 : h;
int minw = (w < ow) ? w : ow;
int minh = (h < oh) ? h : oh;
struct tb_cell *prev = c->cells;
if_err_return(rv, cellbuf_init(c, w, h));
if_err_return(rv, cellbuf_clear(c));
int x, y;
for (x = 0; x < minw; x++) {
for (y = 0; y < minh; y++) {
struct tb_cell *src, *dst;
src = &prev[(y * ow) + x];
if_err_return(rv, cellbuf_get(c, x, y, &dst));
if_err_return(rv, cell_copy(dst, src));
}
}
tb_free(prev);
return TB_OK;
}
static int bytebuf_puts(struct bytebuf_t *b, const char *str) {
if (!str || strlen(str) <= 0) return TB_OK; // Nothing to do for empty caps
return bytebuf_nputs(b, str, (size_t)strlen(str));
}
static int bytebuf_nputs(struct bytebuf_t *b, const char *str, size_t nstr) {
int rv;
if_err_return(rv, bytebuf_reserve(b, b->len + nstr + 1));
memcpy(b->buf + b->len, str, nstr);
b->len += nstr;
b->buf[b->len] = '\0';
return TB_OK;
}
static int bytebuf_shift(struct bytebuf_t *b, size_t n) {
if (n > b->len) {
n = b->len;
}
size_t nmove = b->len - n;
memmove(b->buf, b->buf + n, nmove);
b->len -= n;
return TB_OK;
}
static int bytebuf_flush(struct bytebuf_t *b, int fd) {
if (b->len <= 0) {
return TB_OK;
}
ssize_t write_rv = write(fd, b->buf, b->len);
if (write_rv < 0 || (size_t)write_rv != b->len) {
// Note, errno will be 0 on partial write
global.last_errno = errno;
return TB_ERR;
}
b->len = 0;
return TB_OK;
}
static int bytebuf_reserve(struct bytebuf_t *b, size_t sz) {
if (b->cap >= sz) {
return TB_OK;
}
size_t newcap = b->cap > 0 ? b->cap : 1;
while (newcap < sz) {
newcap *= 2;
}
char *newbuf;
if (b->buf) {
newbuf = tb_realloc(b->buf, newcap);
} else {
newbuf = tb_malloc(newcap);
}
if (!newbuf) {
return TB_ERR_MEM;
}
b->buf = newbuf;
b->cap = newcap;
return TB_OK;
}
static int bytebuf_free(struct bytebuf_t *b) {
if (b->buf) {
tb_free(b->buf);
}
memset(b, 0, sizeof(*b));
return TB_OK;
}
#endif /* TB_IMPL */
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