diff --git a/README.md b/README.md new file mode 100644 index 0000000..cdda2ec --- /dev/null +++ b/README.md @@ -0,0 +1,33 @@ +# lavat + +Little program that simulates a lava lamp in the terminal. + +## Usage + +``` +Usage: lavaterm [OPTIONS] +OPTIONS: + -c COLOR Set color. Available colours: red, blue, yellow, green, cyan and magenta. + Besides those colors the default one is the normal foreground of your terminal. + -s SPEED Set the speed, from 1 to 5. (default 1) + -r RADIUS Set the radius of the metaballs, from 1 to 10. (default: 5) + -R RIM Set a "rim" for each metaball, from 1 to 5. (default: none) + This option does not work with the default color + -b NBALLS Set the number of metaballs in the simulation, from 2 to 20. (default: 10) + -h Print help. + +``` +## Demo + +`lavat -c red -R 1` +[1](https://github.com/AngelJumbo/lavat/raw/master/demo/1.gif) + + +`lavat -c cyan -R 4 -b 20 -r 2` + +[2](https://github.com/AngelJumbo/lavat/raw/master/demo/2.gif) + +## Credits + + - This program was made with [Termbox2](https://github.com/termbox/termbox2). + - [Metaballs](https://en.wikipedia.org/wiki/Metaballs). diff --git a/demo/1.gif b/demo/1.gif new file mode 100644 index 0000000..df0f854 Binary files /dev/null and b/demo/1.gif differ diff --git a/demo/2.gif b/demo/2.gif new file mode 100644 index 0000000..83de3f2 Binary files /dev/null and b/demo/2.gif differ diff --git a/lavat.c b/lavat.c new file mode 100644 index 0000000..b7baa0f --- /dev/null +++ b/lavat.c @@ -0,0 +1,216 @@ +#define TB_IMPL + +#include "termbox.h" +#include +#include +#include +#include +#include + +typedef struct ball { + int x; + int y; + int dx; + int dy; +} Ball; + +static short color = TB_DEFAULT; +static int nballs = 10; +static short speedMult = 1; +static short rim = 0; +static float radius = 100; + +int parse_options(int argc, char *argv[]); +void print_help(); + +int main(int argc, char *argv[]) { + + if (!parse_options(argc, argv)) + return 0; + + if (color == TB_DEFAULT) + rim = 0; + + time_t t; + Ball *balls = (Ball *)malloc(sizeof(Ball) * nballs); + + struct tb_event event = {0}; + + srand((unsigned)time(&t)); + + tb_init(); + + tb_hide_cursor(); + + int maxX = tb_width(); + int maxY = tb_height() * 2; + int speed = (((1 / (float)(maxX + maxY)) * 5000000) + 50000) / speedMult; + radius = radius / (float)(maxX * maxY); //(float)(maxX > maxY ? maxX : maxY); + + float innerRadius = radius * (1 + (float)(0.25 * rim)); + + for (int i = 0; i < nballs; i++) { + balls[i].x = rand() % maxX; + balls[i].y = rand() % maxY; + balls[i].dx = (rand() % 2 == 0) ? -1 : 1; + balls[i].dy = (rand() % 2 == 0) ? -1 : 1; + } + + while (1) { + + // move balls + for (int i = 0; i < nballs; i++) { + + if (balls[i].x + balls[i].dx >= maxX || balls[i].x + balls[i].dx < 0) + balls[i].dx *= -1; + + if (balls[i].y + balls[i].dy >= maxY || balls[i].y + balls[i].dy < 0) + balls[i].dy *= -1; + + balls[i].x += balls[i].dx; + balls[i].y += balls[i].dy; + } + + // render + for (int i = 0; i < maxX; i++) { + for (int j = 0; j < maxY / 2; j++) { + // calculate the two halfs of the block at the same time + float sum[2] = {0}; + + for (int j2 = 0; j2 < 2; j2++) { + + for (int k = 0; k < nballs; k++) { + int y = j * 2 + j2; + sum[j2] += 1 / ((float)((i - balls[k].x) * (i - balls[k].x) + + (y - balls[k].y) * (y - balls[k].y))); + } + } + + if (sum[0] > radius) { + if (sum[1] > radius) { + tb_printf(i, j, color | TB_BOLD, 0, "█"); + } else { + tb_printf(i, j, color | TB_BOLD, 0, "▀"); + } + } else if (sum[1] > radius) { + tb_printf(i, j, color | TB_BOLD, 0, "▄"); + } + + if (rim) { + if (sum[0] > innerRadius) { + if (sum[1] > innerRadius) { + tb_printf(i, j, color, 0, "█"); + } else { + tb_printf(i, j, color | TB_BOLD, color, "▄"); + } + } else if (sum[1] > innerRadius) { + tb_printf(i, j, color | TB_BOLD, color, "▀"); + } + } + } + } + tb_present(); + usleep(speed); + tb_clear(); + + tb_peek_event(&event, 10); + if (event.key == TB_KEY_CTRL_C || event.key == TB_KEY_ESC || + event.ch == 'q' || event.ch == 'Q') + break; + } + + tb_shutdown(); + + free(balls); +} + +int parse_options(int argc, char *argv[]) { + if (argc == 1) + return 1; + int c; + while ((c = getopt(argc, argv, ":c:s:r:R:b:h")) != -1) { + switch (c) { + case 'c': + if (strcmp(optarg, "red") == 0) { + color = TB_RED; + } else if (strcmp(optarg, "yellow") == 0) { + color = TB_YELLOW; + } else if (strcmp(optarg, "blue") == 0) { + color = TB_BLUE; + } else if (strcmp(optarg, "green") == 0) { + color = TB_GREEN; + } else if (strcmp(optarg, "magenta") == 0) { + color = TB_MAGENTA; + } else if (strcmp(optarg, "cyan") == 0) { + color = TB_CYAN; + } else { + printf("Unknown color\n"); + return 0; + } + break; + case 's': + speedMult = atoi(optarg); + if (speedMult > 5 || speedMult <= 0) { + printf("Invalid speed, only values between 1 and 5 are allowed\n"); + return 0; + } + break; + case 'R': + rim = atoi(optarg); + if (rim > 5 || rim < 1) { + printf("Invalid rim, only values between 1 and 5 are allowed\n"); + return 0; + } + break; + case 'r': + radius = 50 + (11 - atoi(optarg)) * 10; + if (radius > 150 || radius < 50) { + printf("Invalid radius, only values between 1 and 10 are allowed\n"); + return 0; + } + break; + + case 'b': + nballs = atoi(optarg); + if (nballs > 20 || nballs < 2) { + + printf("Invalid number of metaballs, only values between 2 and 20 are" + "allowed\n"); + return 0; + } + break; + case 'h': + print_help(); + return 0; + break; + case ':': /* -f or -o without operand */ + fprintf(stderr, "Option -%c requires an operand\n", optopt); + return 0; + break; + case '?': + fprintf(stderr, "Unrecognized option: -%c\n", optopt); + return 0; + } + } + return 1; +} + +void print_help() { + printf( + "Usage: lavaterm [OPTIONS]\n" + "OPTIONS:\n" + " -c COLOR Set color. Available colours: red, blue, yellow, " + "green, cyan and magenta. \n" + " Besides those colors the default one is the normal " + "foreground of your terminal.\n" + " -s SPEED Set the speed, from 1 to 5. (default 1)\n" + " -r RADIUS Set the radius of the metaballs, from 1 to 10. " + "(default: 5)\n" + " -R RIM Set a \"rim\" for each metaball, from 1 to 5. " + "(default: none)\n" + " This option does not work with the default color\n" + " -b NBALLS Set the number of metaballs in the simulation, from " + "2 to 20. (default: 10)\n" + " -h Print help.\n" + "From a tty the rim will not work well.\n"); +} diff --git a/makefile b/makefile new file mode 100644 index 0000000..042377a --- /dev/null +++ b/makefile @@ -0,0 +1,16 @@ +PREFIX = /usr/local + +lavat: lavat.c + $(CC) lavat.c -o lavat + +.PHONY: clean +clean: + $(RM) lavat + +.PHONY: install +install: lavat + install -D lavat $(DESTDIR)$(PREFIX)/bin/lavat + +.PHONY: unistall +unistall: + $(RM) $(DESTDIR)$(PREFIX)/bin/lavat diff --git a/termbox.h b/termbox.h new file mode 100644 index 0000000..febf364 --- /dev/null +++ b/termbox.h @@ -0,0 +1,3289 @@ +/* +MIT License + +Copyright (c) 2010-2020 nsf + 2015-2022 Adam Saponara + +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 +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#ifdef __cplusplus +extern "C" { +#endif + +// __ffi_start + +#define TB_VERSION_STR "2.1.0-dev" + +#if defined(TB_LIB_OPTS) || 0 // __tb_lib_opts +// Ensure consistent compile-time options when using as a library +#undef TB_OPT_TRUECOLOR +#undef TB_OPT_EGC +#undef TB_OPT_PRINTF_BUF +#undef TB_OPT_READ_BUF +#define TB_OPT_TRUECOLOR +#define TB_OPT_EGC +#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 Sun, 19 Sep 2021 01:02:02 +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__COUNT 36 +/* 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" + +/* Colors (numeric) and attributes (bitwise) (tb_cell.fg, tb_cell.bg) */ +#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 +#define TB_BOLD 0x0100 +#define TB_UNDERLINE 0x0200 +#define TB_REVERSE 0x0400 +#define TB_ITALIC 0x0800 +#define TB_BLINK 0x1000 +#define TB_DEFAULT 0x2000 +#ifdef TB_OPT_TRUECOLOR +#define TB_TRUECOLOR_BOLD 0x01000000 +#define TB_TRUECOLOR_UNDERLINE 0x02000000 +#define TB_TRUECOLOR_REVERSE 0x04000000 +#define TB_TRUECOLOR_ITALIC 0x08000000 +#define TB_TRUECOLOR_BLINK 0x10000000 +#define TB_TRUECOLOR_DEFAULT 0x20000000 +#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 +#ifdef TB_OPT_TRUECOLOR +#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 + +#ifdef TB_OPT_TRUECOLOR +typedef uint32_t uintattr_t; +#else +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 code points, + * however some support for grapheme clusters (e.g., combining diacritical + * marks) and wide code points (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 code points, 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 + * code point, 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 character */ + uintattr_t fg; /* bitwise foreground attributes */ + uintattr_t bg; /* bitwise background attributes */ +#ifdef TB_OPT_EGC + uint32_t *ech; /* a grapheme cluster of Unicode code points */ + size_t nech; /* length in bytes of ech, 0 means use ch instead of ech */ + size_t cech; /* capacity in bytes of 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 code point */ + 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); + +/* 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 code point 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 + * + * The value 0 is interpreted as TB_DEFAULT. + * + * Some notes: TB_REVERSE can be applied as either fg or bg attributes for + * the same effect. TB_BOLD, TB_UNDERLINE, TB_ITALIC, TB_BLINK apply as fg + * attributes 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] + * + * In this mode you get 256 distinct colors: + * 0x00 - 0x07: the 8 colors as in TB_OUTPUT_NORMAL + * 0x08 - 0x0f: bright versions of the above + * 0x10 - 0xe7: 216 different colors + * 0xe8 - 0xff: 24 different shades of grey + * + * Attributes may be bitwise OR'd as in TB_OUTPUT_NORMAL. + * + * In this mode 0x00 represents TB_BLACK, so TB_DEFAULT must be used for + * default colors. + * + * 3. TB_OUTPUT_216 => [0..216] + * + * This mode supports the 3rd range of TB_OUTPUT_256 only, but you don't + * need to provide an offset. + * + * The value 0 is interpreted as TB_DEFAULT. + * + * 4. TB_OUTPUT_GRAYSCALE => [0..24] + * + * This mode supports the 4th range of TB_OUTPUT_256 only, but you don't + * need to provide an offset. + * + * The value 0 is interpreted as TB_DEFAULT. + * + * 5. TB_OUTPUT_TRUECOLOR => [0x000000..0xffffff] + * + * This mode provides 24-bit color on supported terminals. The format is + * 0xRRGGBB. Colors may be bitwise OR'd with `TB_TRUECOLOR_*` attributes. + * + * In this mode 0x000000 represents black, so TB_TRUECOLOR_DEFAULT must be + * used for default colors. + * + * 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 (or TB_TRUECOLOR_DEFAULT in TB_OUTPUT_TRUECOLOR mode). For + * convenience, the value 0 is interpreted as TB_DEFAULT in TB_OUTPUT_NORMAL, + * TB_OUTPUT_216, and TB_OUTPUT_GRAYSCALE. + * + * 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. + */ +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. + */ +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 *)); + +/* Utility functions. */ +int tb_utf8_char_length(char c); +int tb_utf8_char_to_unicode(uint32_t *out, const char *c); +int tb_utf8_unicode_to_char(char *out, uint32_t c); +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); +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 Sun, 19 Sep 2021 01:02:03 +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) +}; + +// 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) +}; + +// 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[Z", // 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) +}; + +// 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) +}; + +// 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) +}; + +// 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) +}; + +// 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) +}; + +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_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(uintattr_t fg, uintattr_t bg, uintattr_t fg_is_default, + uintattr_t 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_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) { + if_not_init_return(); + 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: +#ifdef TB_OPT_TRUECOLOR + case TB_OUTPUT_TRUECOLOR: +#endif + 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) { + str += tb_utf8_char_to_unicode(&uni, str); + 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 TB_ERR; + } + + 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; ++i) { + result <<= 6; + result |= c[i] & 0x3f; + } + + *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; + + 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) { +#ifdef TB_OPT_TRUECOLOR + return 1; +#else + return 0; +#endif +} + +int tb_has_egc(void) { +#ifdef TB_OPT_EGC + return 1; +#else + return 0; +#endif +} + +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 + for (i = 0; i < TB_CAP__COUNT_KEYS; i++) { + if_err_return(rv, cap_trie_add(global.caps[i], tb_key_i(i), 0)); + } + + // Add built-in mod caps + 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); + // Collisions are OK. This can happen if global.caps collides with + // builtin_mod_caps. It is desirable to give precedence to global.caps + // here. + 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; + 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, = 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[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[PATH_MAX]; + + // Look for term at this terminfo location, e.g., /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., /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, 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_table_pos, int16_t str_table_len, int16_t str_index) { + const int16_t *str_offset = + (int16_t *)(global.terminfo + (int)str_offsets_pos + + ((int)str_index * (int)sizeof(int16_t))); + if (*str_offset < 0) { + // A negative indicates the cap is absent from this terminal + return ""; + } + if (*str_offset >= str_table_len) { + // Invalid string offset + return NULL; + } + if (((size_t)((int)str_table_pos + (int)*str_offset)) >= global.nterminfo) { + // Truncated/corrupt terminfo? + 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 }; + + 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])); + + uintattr_t cfg, cbg; + switch (global.output_mode) { + default: + case TB_OUTPUT_NORMAL: + cfg = fg & 0x0f; + cbg = bg & 0x0f; + break; + + case TB_OUTPUT_256: + cfg = fg & 0xff; + cbg = bg & 0xff; + 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; + +#ifdef TB_OPT_TRUECOLOR + case TB_OUTPUT_TRUECOLOR: + cfg = fg & 0xffffff; + cbg = bg & 0xffffff; + break; +#endif + } + + uintattr_t attr_bold, attr_blink, attr_italic, attr_underline, attr_reverse, + attr_default; +#ifdef TB_OPT_TRUECOLOR + if (global.output_mode == TB_OUTPUT_TRUECOLOR) { + attr_bold = TB_TRUECOLOR_BOLD; + attr_blink = TB_TRUECOLOR_BLINK; + attr_italic = TB_TRUECOLOR_ITALIC; + attr_underline = TB_TRUECOLOR_UNDERLINE; + attr_reverse = TB_TRUECOLOR_REVERSE; + attr_default = TB_TRUECOLOR_DEFAULT; + } else +#endif + { + attr_bold = TB_BOLD; + attr_blink = TB_BLINK; + attr_italic = TB_ITALIC; + attr_underline = TB_UNDERLINE; + attr_reverse = TB_REVERSE; + attr_default = TB_DEFAULT; + } + + /* For convenience (and some back compat), interpret 0 as default in some + * modes */ + if (global.output_mode == TB_OUTPUT_NORMAL || + global.output_mode == TB_OUTPUT_216 || + global.output_mode == TB_OUTPUT_GRAYSCALE) + { + if ((fg & 0xff) == 0) + fg |= attr_default; + if ((bg & 0xff) == 0) + bg |= attr_default; + } + + if (fg & attr_bold) + if_err_return(rv, bytebuf_puts(&global.out, global.caps[TB_CAP_BOLD])); + + if (fg & attr_blink) + if_err_return(rv, bytebuf_puts(&global.out, global.caps[TB_CAP_BLINK])); + + if (fg & attr_underline) + if_err_return(rv, + bytebuf_puts(&global.out, global.caps[TB_CAP_UNDERLINE])); + + if (fg & attr_italic) + if_err_return(rv, + bytebuf_puts(&global.out, global.caps[TB_CAP_ITALIC])); + + if ((fg & attr_reverse) || (bg & attr_reverse)) + if_err_return(rv, + bytebuf_puts(&global.out, global.caps[TB_CAP_REVERSE])); + + if_err_return(rv, send_sgr(cfg, cbg, fg & attr_default, bg & attr_default)); + + global.last_fg = fg; + global.last_bg = bg; + + return TB_OK; +} + +static int send_sgr(uintattr_t cfg, uintattr_t cbg, uintattr_t fg_is_default, + uintattr_t 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_literal(rv, "3"); + send_num(rv, nbuf, cfg - 1); + if (!bg_is_default) { + send_literal(rv, ";"); + } + } + if (!bg_is_default) { + send_literal(rv, "4"); + send_num(rv, nbuf, cbg - 1); + } + 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; + +#ifdef TB_OPT_TRUECOLOR + 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 abuf[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 ach = *(ch + i); + int aw = tb_utf8_unicode_to_char(abuf, ach); + if (!ach) { + abuf[0] = ' '; + } + if_err_return(rv, bytebuf_nputs(&global.out, abuf, (size_t)aw)); + } + + 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, 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) { + 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 */