#include #include #include #include #include #include #include #include #include "dged/allocator.h" #include "dged/binding.h" #include "dged/buffer.h" #include "dged/buffers.h" #include "dged/display.h" #include "dged/lang.h" #include "dged/minibuffer.h" #include "dged/reactor.h" #include "dged/settings.h" #include "bindings.h" #include "cmds.h" struct frame_allocator frame_allocator; void *frame_alloc(size_t sz) { return frame_allocator_alloc(&frame_allocator, sz); } bool running = true; void terminate() { running = false; } static struct display *display = NULL; static bool display_resized = false; void resized() { if (display != NULL) { display_resize(display); } display_resized = true; signal(SIGWINCH, resized); } uint64_t calc_frame_time_ns(struct timespec *timers, uint32_t num_timer_pairs) { uint64_t total = 0; for (uint32_t ti = 0; ti < num_timer_pairs * 2; ti += 2) { struct timespec *start_timer = &timers[ti]; struct timespec *end_timer = &timers[ti + 1]; total += ((uint64_t)end_timer->tv_sec * 1e9 + (uint64_t)end_timer->tv_nsec) - ((uint64_t)start_timer->tv_sec * 1e9 + (uint64_t)start_timer->tv_nsec); } return total; } #define DECLARE_TIMER(timer) struct timespec timer##_begin, timer##_end #define TIMED_SCOPE_BEGIN(timer) clock_gettime(CLOCK_MONOTONIC, &timer##_begin) #define TIMED_SCOPE_END(timer) clock_gettime(CLOCK_MONOTONIC, &timer##_end) void usage() { printf("TODO: print usage\n"); } int main(int argc, char *argv[]) { static struct option longopts[] = {{"line", required_argument, NULL, 'l'}, {"end", no_argument, NULL, 'e'}, {"help", no_argument, NULL, 'h'}, {NULL, 0, NULL, 0}}; char *filename = NULL; uint32_t jumpline = 1; bool goto_end = false; char ch; while ((ch = getopt_long(argc, argv, "hel:", longopts, NULL)) != -1) { switch (ch) { case 'l': jumpline = atoi(optarg); break; case 'e': goto_end = true; break; case 'h': usage(); return 0; break; default: usage(); return 1; } } argc -= optind; argv += optind; if (argc > 1) { fprintf(stderr, "More than one file to open is not supported\n"); return 2; } else if (argc == 1) { filename = strdup(argv[0]); } setlocale(LC_ALL, ""); signal(SIGTERM, terminate); struct commands commands = command_registry_create(32); settings_init(64); languages_init(true); buffer_static_init(); frame_allocator = frame_allocator_create(16 * 1024 * 1024); struct reactor *reactor = reactor_create(); display = display_create(); display_clear(display); signal(SIGWINCH, resized); register_global_commands(&commands, terminate); register_buffer_commands(&commands); register_window_commands(&commands); register_settings_commands(&commands); struct keyboard kbd = keyboard_create(reactor); struct keymap *current_keymap = NULL; struct keymap *global_keymap = register_bindings(); struct buffers buflist = {0}; buffers_init(&buflist, 32); struct buffer initial_buffer = buffer_create("welcome"); if (filename != NULL) { buffer_destroy(&initial_buffer); initial_buffer = buffer_from_file(filename); } else { const char *welcome_txt = "Welcome to the editor for datagubbar 👴\n"; buffer_set_text(&initial_buffer, (uint8_t *)welcome_txt, strlen(welcome_txt)); } struct buffer *ib = buffers_add(&buflist, initial_buffer); struct buffer minibuffer = buffer_create("minibuffer"); minibuffer_init(&minibuffer); reset_minibuffer_keys(&minibuffer); windows_init(display_height(display), display_width(display), ib, &minibuffer); struct window *active = windows_get_active(); if (goto_end) { buffer_goto_end(window_buffer_view(active)); } else { buffer_goto(window_buffer_view(active), jumpline > 0 ? jumpline - 1 : 0, 0); } DECLARE_TIMER(buffer); DECLARE_TIMER(display); DECLARE_TIMER(keyboard); uint64_t frame_time = 0; static char keyname[64] = {0}; static uint32_t nkeychars = 0; while (running) { if (display_resized) { windows_resize(display_height(display), display_width(display)); display_resized = false; } /* Update all windows together with the buffers in them. */ TIMED_SCOPE_BEGIN(buffer); windows_update(frame_alloc, frame_time); TIMED_SCOPE_END(buffer); struct window *active_window = windows_get_active(); if (minibuffer_focused()) { active_window = minibuffer_window(); } /* Update the screen by flushing command lists collected from updating the * buffers. */ TIMED_SCOPE_BEGIN(display); display_begin_render(display); windows_render(display); struct buffer_location cursor = window_absolute_cursor_location(active_window); display_move_cursor(display, cursor.line, cursor.col); display_end_render(display); TIMED_SCOPE_END(display); /* This blocks for events, so if nothing has happened we block here and let * the CPU do something more useful than updating this narcissistic editor. * This is also the reason that there is no timed scope around this, it * simply makes no sense. */ reactor_update(reactor); TIMED_SCOPE_BEGIN(keyboard); struct keyboard_update kbd_upd = keyboard_update(&kbd, reactor, frame_alloc); uint32_t input_data_idx = 0; for (uint32_t ki = 0; ki < kbd_upd.nkeys; ++ki) { struct key *k = &kbd_upd.keys[ki]; struct lookup_result res = {.found = false}; if (current_keymap != NULL) { res = lookup_key(current_keymap, 1, k, &commands); } else { // check the global keymap first, then the buffer one res = lookup_key(global_keymap, 1, k, &commands); if (!res.found) { res = lookup_key(buffer_keymap(window_buffer(active_window)), 1, k, &commands); } } if (res.found) { switch (res.type) { case BindingType_Command: { if (res.command == NULL) { minibuffer_echo_timeout( 4, "binding found for key %s but not command", k); } else { int32_t ec = execute_command(res.command, &commands, active_window, &buflist, 0, NULL); if (ec != 0 && !minibuffer_displaying()) { minibuffer_echo_timeout(4, "command %s failed with exit code %d", res.command->name, ec); } } current_keymap = NULL; nkeychars = 0; keyname[0] = '\0'; break; } case BindingType_Keymap: { if (nkeychars > 0 && nkeychars < 64) { keyname[nkeychars] = '-'; ++nkeychars; } if (nkeychars < 64) { nkeychars += key_name(k, keyname + nkeychars, 64 - nkeychars); minibuffer_echo("%s", keyname); } current_keymap = res.keymap; break; } } } else if (k->mod == 0) { buffer_add_text(window_buffer_view(active_window), &kbd_upd.raw[k->start], k->end - k->start); } else { char keyname[16]; key_name(k, keyname, 16); if (current_keymap == NULL) { minibuffer_echo_timeout(4, "key \"%s\" is not bound!", keyname); } else { minibuffer_echo_timeout(4, "key \"%s %s\" is not bound!", current_keymap->name, keyname); } current_keymap = NULL; nkeychars = 0; keyname[0] = '\0'; } } TIMED_SCOPE_END(keyboard); // calculate frame time struct timespec timers[] = {buffer_begin, buffer_end, display_begin, display_end, keyboard_begin, keyboard_end}; frame_time = calc_frame_time_ns(timers, 3); frame_allocator_clear(&frame_allocator); } windows_destroy(); minibuffer_destroy(); buffer_destroy(&minibuffer); buffers_destroy(&buflist); display_clear(display); display_destroy(display); destroy_keymaps(); command_registry_destroy(&commands); reactor_destroy(reactor); frame_allocator_destroy(&frame_allocator); buffer_static_teardown(); settings_destroy(); return 0; }