neetdraw/autistdraw.c

// <poll.h> might need this for sigset_t
#define _XOPEN_SOURCE 600

#include <stdio.h>
#include <unistd.h>
#include <locale.h>
#include <stdarg.h>
#include <stdbool.h>
#include <string.h>

#include <poll.h>
#include <signal.h>

#include <curses.h>
#include "termo.h"

#include "config.h"

#define PALETTE_WIDTH 9                 ///< Width of the palette
#define TOP_BAR_CUTOFF 3                ///< Height of the top bar

#define BITMAP_BLOCK_SIZE 50            ///< Step for extending bitmap size

typedef struct app_context app_context_t;
struct app_context
{
	termo_t *tk;                        ///< Termo instance

	chtype palette[2 * 9];              ///< Attribute palette

	uint8_t *bitmap;                    ///< Canvas data for drawing
	int bitmap_x;                       ///< X coord. of left top bitmap corner
	int bitmap_y;                       ///< Y coord. of left top bitmap corner
	size_t bitmap_w;                    ///< Canvas data width
	size_t bitmap_h;                    ///< Canvas data height

	int center_x;                       ///< X coordinate at center
	int center_y;                       ///< Y coordinate at center

	// These two are computed from `center_x' and `center_y':

	int corner_x;                       ///< X coordinate of LT screen corner
	int corner_y;                       ///< Y coordinate of LT screen corner

	int move_saved_x;                   ///< Saved X coord. for moving
	int move_saved_y;                   ///< Saved Y coord. for moving

	uint8_t current_color_left;         ///< Left mouse button color
	uint8_t current_color_right;        ///< Right mouse button color
};

static void
app_init (app_context_t *self)
{
	memset (self, 0, sizeof *self);
}

static int g_winch_pipe[2];

static void
display (const char *format, ...)
{
	va_list ap;

	mvwhline (stdscr, 0, 0, A_REVERSE, COLS);
	attron (A_REVERSE);

	va_start (ap, format);
	vw_printw (stdscr, format, ap);
	va_end (ap);

	attroff (A_REVERSE);
	refresh ();
}

static void
init_palette (app_context_t *app)
{
	start_color ();

	// Also does init_pair (0, -1, -1);
	use_default_colors ();
	// Duplicate it for convenience.
	init_pair (9, -1, -1);

	// Add the basic 8 colors to the default pair.  Once normally, once
	// inverted to workaround VTE's inability to set a bright background.
	for (int i = 0; i < 8; i++)
	{
		init_pair (1  + i, COLOR_WHITE, COLOR_BLACK + i);
		init_pair (10 + i, COLOR_BLACK + i, COLOR_WHITE);
	}

	// Initialize the palette of characters with attributes
	for (int i = 0; i < PALETTE_WIDTH; i++)
	{
		app->palette[i]     = ' ' | COLOR_PAIR (i);
		app->palette[i + 9] = ' ' | COLOR_PAIR (i + 9) | A_REVERSE | A_BOLD;
	}

	// This usually creates a solid black or white.
	app->current_color_left = app->current_color_right = 9;
}

static void
update_canvas_for_screen (app_context_t *app)
{
	app->corner_x = app->center_x - COLS / 2;
	app->corner_y = app->center_y - (LINES - TOP_BAR_CUTOFF) / 2;
}

static void
redraw (app_context_t *app)
{
	int i;

	mvwhline (stdscr, 1, 0, A_REVERSE, COLS);
	mvwhline (stdscr, 2, 0, A_REVERSE, COLS);

	for (i = 0; i < COLS; i++)
	{
		int pair = (float) i / COLS * PALETTE_WIDTH;
		mvaddch (1, i, app->palette[pair]);
		mvaddch (2, i, app->palette[pair + PALETTE_WIDTH]);
	}

	display ("Choose a color from the palette and draw.  "
		"Press Escape or ^C to quit.");
	refresh ();
}

static bool
is_in_bitmap_data (app_context_t *app, int x, int y)
{
	return x >= app->bitmap_x
		&& y >= app->bitmap_y
		&& x <  app->bitmap_x + (int) app->bitmap_w
		&& y <  app->bitmap_y + (int) app->bitmap_h;
}

static void
redraw_canvas (app_context_t *app)
{
	int y = app->corner_y;
	for (int screen_y = TOP_BAR_CUTOFF; screen_y < LINES; screen_y++, y++)
	{
		move (screen_y, 0);

		int x = app->corner_x;
		for (int screen_x = 0; screen_x < COLS; screen_x++, x++)
		{
			uint8_t color;
			if (!is_in_bitmap_data (app, x, y))
				color = 0;
			else
			{
				int data_x = x - app->bitmap_x;
				int data_y = y - app->bitmap_y;
				color = app->bitmap[data_y * app->bitmap_w + data_x];
			}

			addch (app->palette[color]);
		}
	}
	refresh ();
}

static bool
is_visible (app_context_t *app, int x, int y)
{
	return x >= app->corner_x
		&& y >= app->corner_y
		&& x <  app->corner_x + COLS
		&& y <  app->corner_y + LINES - TOP_BAR_CUTOFF;
}

static void
make_place_for_point (app_context_t *app, int x, int y)
{
	if (is_in_bitmap_data (app, x, y))
		return;

	// Make sure the point has some place to go
	int new_bitmap_x = app->bitmap_x;
	int new_bitmap_y = app->bitmap_y;

	while (new_bitmap_x > x)
		new_bitmap_x -= BITMAP_BLOCK_SIZE;
	while (new_bitmap_y > y)
		new_bitmap_y -= BITMAP_BLOCK_SIZE;

	int new_bitmap_w = app->bitmap_w + (app->bitmap_x - new_bitmap_x);
	int new_bitmap_h = app->bitmap_h + (app->bitmap_y - new_bitmap_y);

	while (new_bitmap_x + new_bitmap_w <= x)
		new_bitmap_w += BITMAP_BLOCK_SIZE;
	while (new_bitmap_y + new_bitmap_h <= y)
		new_bitmap_h += BITMAP_BLOCK_SIZE;

	uint8_t *new_bitmap = calloc (new_bitmap_w * new_bitmap_h,
		sizeof *new_bitmap);
	if (app->bitmap)
	{
		// Copy data, assuming that the area can only get larger
		for (size_t data_y = 0; data_y < app->bitmap_h; data_y++)
			memcpy (new_bitmap
				+ ((data_y + app->bitmap_y - new_bitmap_y) * new_bitmap_w)
				+ (app->bitmap_x - new_bitmap_x),
				app->bitmap + (data_y * app->bitmap_w),
				app->bitmap_w * sizeof *new_bitmap);

		free (app->bitmap);
	}

	// Replace the bitmap with the reallocated version
	app->bitmap_x = new_bitmap_x;
	app->bitmap_y = new_bitmap_y;
	app->bitmap_w = new_bitmap_w;
	app->bitmap_h = new_bitmap_h;
	app->bitmap   = new_bitmap;
}

static void
draw_point (app_context_t *app, int x, int y, uint8_t color)
{
	make_place_for_point (app, x, y);

	int data_x = x - app->bitmap_x;
	int data_y = y - app->bitmap_y;
	app->bitmap[data_y * app->bitmap_w + data_x] = color;

	if (is_visible (app, x, y))
	{
		int screen_x = x - app->corner_x;
		int screen_y = y - app->corner_y + TOP_BAR_CUTOFF;

		move (screen_y, screen_x);
		addch (app->palette[color]);
		refresh ();
	}
}

static bool
on_key (app_context_t *app, termo_key_t *key)
{
	if (key->type == TERMO_TYPE_KEYSYM
	 && key->code.sym == TERMO_SYM_ESCAPE)
		return false;

	if (key->type == TERMO_TYPE_KEY
	 && (key->modifiers & TERMO_KEYMOD_CTRL)
	 && (key->code.codepoint == 'C' || key->code.codepoint == 'c'))
		return false;

	if (key->type != TERMO_TYPE_MOUSE)
		return true;

	int screen_y, screen_x, button;
	termo_mouse_event_t event;

	termo_interpret_mouse (app->tk, key, &event, &button, &screen_y, &screen_x);
	if (event != TERMO_MOUSE_PRESS && event != TERMO_MOUSE_DRAG)
		return true;

	if (button == 2)
	{
		if (event == TERMO_MOUSE_DRAG)
		{
			app->corner_x += app->move_saved_x - screen_x;
			app->corner_y += app->move_saved_y - screen_y;

			app->center_x += app->move_saved_x - screen_x;
			app->center_y += app->move_saved_y - screen_y;

			redraw_canvas (app);
		}

		app->move_saved_x = screen_x;
		app->move_saved_y = screen_y;
		return true;
	}

	uint8_t *color;
	if (button == 1)
		color = &app->current_color_left;
	else if (button == 3)
		color = &app->current_color_right;
	else
		return true;

	int canvas_x = app->corner_x + screen_x;
	int canvas_y = app->corner_y + screen_y - TOP_BAR_CUTOFF;

	if (screen_y >= TOP_BAR_CUTOFF)
		draw_point (app, canvas_x, canvas_y, *color);
	else if (screen_y > 0 && event != TERMO_MOUSE_DRAG)
	{
		int pair = (float) screen_x / COLS * PALETTE_WIDTH;
		*color = pair + (screen_y - 1) * PALETTE_WIDTH;
	}

	return true;
}

static void
winch_handler (int signum)
{
	(void) signum;
	write (g_winch_pipe[1], "x", 1);
}

int
main (int argc, char *argv[])
{
	(void) argc;
	(void) argv;

	TERMO_CHECK_VERSION;
	setlocale (LC_CTYPE, "");

	struct sigaction act;
	act.sa_handler = winch_handler;
	act.sa_flags = SA_RESTART;
	sigemptyset (&act.sa_mask);

	// Set up a self-pipe so that we can actually poll on SIGWINCH
	if (sigaction (SIGWINCH, &act, NULL) || pipe (g_winch_pipe))
	{
		fprintf (stderr, "Cannot set up signal handler\n");
		exit (EXIT_FAILURE);
	}

	termo_t *tk = termo_new (STDIN_FILENO, NULL, 0);
	if (!tk)
	{
		fprintf (stderr, "Cannot allocate termo instance\n");
		exit (EXIT_FAILURE);
	}

	termo_set_mouse_proto (tk, termo_guess_mouse_proto (tk));
	termo_set_mouse_tracking_mode (tk, TERMO_MOUSE_TRACKING_DRAG);

	// Set up curses for our drawing needs
	if (!initscr () || nonl () == ERR || curs_set (0) == ERR)
	{
		fprintf (stderr, "Cannot initialize curses\n");
		exit (EXIT_FAILURE);
	}

	app_context_t app;
	app_init (&app);
	app.tk = tk;

	init_palette (&app);
	update_canvas_for_screen (&app);
	redraw (&app);
	redraw_canvas (&app);

	termo_result_t ret;
	termo_key_t key;

	// We listen for mouse/key input and terminal resize events
	struct pollfd fds[2] =
	{
		{ .fd = STDIN_FILENO,    .events = POLLIN },
		{ .fd = g_winch_pipe[0], .events = POLLIN },
	};

	// Run a simple event loop with poll()
	int nextwait = -1;
	bool running = true;
	while (running)
	{
		if (!poll (fds, 2, nextwait))
			if (termo_getkey_force (tk, &key) == TERMO_RES_KEY)
				running &= on_key (&app, &key);

		if (fds[1].revents & (POLLIN | POLLHUP | POLLERR))
		{
			char x;
			read (fds[1].fd, &x, 1);

			// The "official" simple and flicker-prone method of resizing
			// the internal buffers of curses
			endwin ();
			refresh ();

			update_canvas_for_screen (&app);
			redraw (&app);
			redraw_canvas (&app);
		}
		if (fds[0].revents & (POLLIN | POLLHUP | POLLERR))
			termo_advisereadable (tk);

		while ((ret = termo_getkey (tk, &key)) == TERMO_RES_KEY)
			running &= on_key (&app, &key);

		nextwait = -1;
		if (ret == TERMO_RES_AGAIN)
			nextwait = termo_get_waittime (tk);
	}

	endwin ();
	termo_destroy (tk);
}