games/cgram/cgram.c

1.10    rillig /* $NetBSD: cgram.c,v 1.10 2021/02/21 20:33:42 rillig Exp $ */
 1.4    rillig
 1.1  dholland /*-
1.10    rillig  * Copyright (c) 2013, 2021 The NetBSD Foundation, Inc.
 1.1  dholland  * All rights reserved.
 1.1  dholland  *
 1.1  dholland  * This code is derived from software contributed to The NetBSD Foundation
1.10    rillig  * by David A. Holland and Roland Illig.
 1.1  dholland  *
 1.1  dholland  * Redistribution and use in source and binary forms, with or without
 1.1  dholland  * modification, are permitted provided that the following conditions
 1.1  dholland  * are met:
 1.1  dholland  * 1. Redistributions of source code must retain the above copyright
 1.1  dholland  *    notice, this list of conditions and the following disclaimer.
 1.1  dholland  * 2. Redistributions in binary form must reproduce the above copyright
 1.1  dholland  *    notice, this list of conditions and the following disclaimer in the
 1.1  dholland  *    documentation and/or other materials provided with the distribution.
 1.1  dholland  *
 1.1  dholland  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1  dholland  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1  dholland  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1  dholland  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1  dholland  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1  dholland  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1  dholland  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1  dholland  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1  dholland  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1  dholland  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1  dholland  * POSSIBILITY OF SUCH DAMAGE.
 1.1  dholland  */
 1.1  dholland
1.10    rillig #include <sys/cdefs.h>
1.10    rillig #if defined(__RCSID) && !defined(lint)
1.10    rillig __RCSID("$NetBSD: cgram.c,v 1.10 2021/02/21 20:33:42 rillig Exp $");
1.10    rillig #endif
1.10    rillig
 1.5    rillig #include <assert.h>
 1.5    rillig #include <ctype.h>
 1.5    rillig #include <curses.h>
 1.5    rillig #include <err.h>
 1.6    rillig #include <stdbool.h>
 1.1  dholland #include <stdio.h>
 1.5    rillig #include <stdlib.h>
 1.1  dholland #include <string.h>
 1.1  dholland #include <time.h>
 1.5    rillig
 1.1  dholland #include "pathnames.h"
 1.1  dholland
 1.1  dholland ////////////////////////////////////////////////////////////
 1.1  dholland
 1.8    rillig static char
 1.8    rillig ch_toupper(char ch)
 1.8    rillig {
 1.8    rillig 	return (char)toupper((unsigned char)ch);
 1.8    rillig }
 1.8    rillig
 1.8    rillig static char
 1.8    rillig ch_tolower(char ch)
 1.8    rillig {
 1.8    rillig 	return (char)tolower((unsigned char)ch);
 1.8    rillig }
 1.8    rillig
 1.8    rillig static bool
 1.8    rillig ch_isalpha(char ch)
 1.8    rillig {
1.10    rillig 	return isalpha((unsigned char)ch) != 0;
 1.8    rillig }
 1.8    rillig
 1.8    rillig static bool
 1.8    rillig ch_islower(char ch)
 1.8    rillig {
1.10    rillig 	return islower((unsigned char)ch) != 0;
 1.8    rillig }
 1.8    rillig
 1.8    rillig static bool
 1.8    rillig ch_isupper(char ch)
 1.8    rillig {
1.10    rillig 	return isupper((unsigned char)ch) != 0;
1.10    rillig }
1.10    rillig
1.10    rillig static int
1.10    rillig imax(int a, int b)
1.10    rillig {
1.10    rillig 	return a > b ? a : b;
1.10    rillig }
1.10    rillig
1.10    rillig static int
1.10    rillig imin(int a, int b)
1.10    rillig {
1.10    rillig 	return a < b ? a : b;
 1.8    rillig }
 1.8    rillig
 1.1  dholland ////////////////////////////////////////////////////////////
 1.1  dholland
1.10    rillig struct string {
1.10    rillig 	char *s;
1.10    rillig 	size_t len;
1.10    rillig 	size_t cap;
1.10    rillig };
1.10    rillig
 1.1  dholland struct stringarray {
1.10    rillig 	struct string *v;
 1.9    rillig 	size_t num;
 1.1  dholland };
 1.1  dholland
 1.4    rillig static void
1.10    rillig string_init(struct string *s)
1.10    rillig {
1.10    rillig 	s->s = NULL;
1.10    rillig 	s->len = 0;
1.10    rillig 	s->cap = 0;
1.10    rillig }
1.10    rillig
1.10    rillig static void
1.10    rillig string_add(struct string *s, char ch)
1.10    rillig {
1.10    rillig 	if (s->len >= s->cap) {
1.10    rillig 		s->cap = 2 * s->cap + 16;
1.10    rillig 		s->s = realloc(s->s, s->cap);
1.10    rillig 		if (s->s == NULL)
1.10    rillig 			errx(1, "Out of memory");
1.10    rillig 	}
1.10    rillig 	s->s[s->len++] = ch;
1.10    rillig }
1.10    rillig
1.10    rillig static void
1.10    rillig string_finish(struct string *s)
1.10    rillig {
1.10    rillig 	string_add(s, '\0');
1.10    rillig 	s->len--;
1.10    rillig }
1.10    rillig
1.10    rillig static void
 1.4    rillig stringarray_init(struct stringarray *a)
 1.4    rillig {
 1.4    rillig 	a->v = NULL;
 1.4    rillig 	a->num = 0;
 1.4    rillig }
 1.4    rillig
 1.4    rillig static void
 1.4    rillig stringarray_cleanup(struct stringarray *a)
 1.4    rillig {
1.10    rillig 	for (size_t i = 0; i < a->num; i++)
1.10    rillig 		free(a->v[i].s);
 1.4    rillig 	free(a->v);
 1.4    rillig }
 1.4    rillig
 1.4    rillig static void
1.10    rillig stringarray_add(struct stringarray *a, struct string *s)
 1.4    rillig {
1.10    rillig 	size_t num = a->num++;
1.10    rillig 	a->v = realloc(a->v, a->num * sizeof a->v[0]);
1.10    rillig 	if (a->v == NULL)
 1.4    rillig 		errx(1, "Out of memory");
1.10    rillig 	a->v[num] = *s;
1.10    rillig }
1.10    rillig
1.10    rillig static void
1.10    rillig stringarray_dup(struct stringarray *dst, const struct stringarray *src)
1.10    rillig {
1.10    rillig 	assert(dst->num == 0);
1.10    rillig 	for (size_t i = 0; i < src->num; i++) {
1.10    rillig 		struct string str;
1.10    rillig 		string_init(&str);
1.10    rillig 		for (const char *p = src->v[i].s; *p != '\0'; p++)
1.10    rillig 			string_add(&str, *p);
1.10    rillig 		string_finish(&str);
1.10    rillig 		stringarray_add(dst, &str);
 1.4    rillig 	}
 1.1  dholland }
 1.1  dholland
 1.1  dholland ////////////////////////////////////////////////////////////
 1.1  dholland
 1.1  dholland static struct stringarray lines;
 1.1  dholland static struct stringarray sollines;
 1.1  dholland static bool hinting;
1.10    rillig static int extent_x;
1.10    rillig static int extent_y;
1.10    rillig static int offset_x;
1.10    rillig static int offset_y;
1.10    rillig static int cursor_x;
1.10    rillig static int cursor_y;
1.10    rillig
1.10    rillig static int
1.10    rillig cur_max_x(void)
1.10    rillig {
1.10    rillig 	return (int)lines.v[cursor_y].len;
1.10    rillig }
1.10    rillig
1.10    rillig static int
1.10    rillig cur_max_y(void)
1.10    rillig {
1.10    rillig 	return extent_y - 1;
1.10    rillig }
 1.1  dholland
 1.4    rillig static void
 1.4    rillig readquote(void)
 1.4    rillig {
 1.4    rillig 	FILE *f = popen(_PATH_FORTUNE, "r");
1.10    rillig 	if (f == NULL)
 1.4    rillig 		err(1, "%s", _PATH_FORTUNE);
1.10    rillig
1.10    rillig 	struct string line;
1.10    rillig 	string_init(&line);
1.10    rillig
1.10    rillig 	int ch;
1.10    rillig 	while ((ch = fgetc(f)) != EOF) {
1.10    rillig 		if (ch == '\n') {
1.10    rillig 			string_finish(&line);
1.10    rillig 			stringarray_add(&lines, &line);
1.10    rillig 			string_init(&line);
1.10    rillig 		} else if (ch == '\t') {
1.10    rillig 			string_add(&line, ' ');
1.10    rillig 			while (line.len % 8 != 0)
1.10    rillig 				string_add(&line, ' ');
1.10    rillig 		} else if (ch == '\b') {
1.10    rillig 			if (line.len > 0)
1.10    rillig 				line.len--;
1.10    rillig 		} else {
1.10    rillig 			string_add(&line, (char)ch);
1.10    rillig 		}
 1.4    rillig 	}
 1.4    rillig
1.10    rillig 	stringarray_dup(&sollines, &lines);
 1.4    rillig
1.10    rillig 	extent_y = (int)lines.num;
1.10    rillig 	for (int i = 0; i < extent_y; i++)
1.10    rillig 		extent_x = imax(extent_x, (int)lines.v[i].len);
 1.4    rillig
 1.4    rillig 	pclose(f);
 1.4    rillig }
 1.4    rillig
 1.4    rillig static void
 1.4    rillig encode(void)
 1.4    rillig {
 1.4    rillig 	int key[26];
 1.9    rillig
 1.4    rillig 	for (int i = 0; i < 26; i++)
 1.4    rillig 		key[i] = i;
 1.9    rillig
 1.4    rillig 	for (int i = 26; i > 1; i--) {
 1.9    rillig 		int c = (int)(random() % i);
 1.4    rillig 		int t = key[i - 1];
 1.4    rillig 		key[i - 1] = key[c];
 1.4    rillig 		key[c] = t;
 1.4    rillig 	}
 1.4    rillig
1.10    rillig 	for (int y = 0; y < extent_y; y++) {
1.10    rillig 		for (char *p = lines.v[y].s; *p != '\0'; p++) {
 1.9    rillig 			if (ch_islower(*p))
 1.9    rillig 				*p = (char)('a' + key[*p - 'a']);
 1.9    rillig 			if (ch_isupper(*p))
 1.9    rillig 				*p = (char)('A' + key[*p - 'A']);
 1.4    rillig 		}
 1.4    rillig 	}
 1.4    rillig }
 1.4    rillig
 1.6    rillig static bool
 1.9    rillig substitute(char ch)
 1.4    rillig {
1.10    rillig 	assert(cursor_x >= 0 && cursor_x < extent_x);
1.10    rillig 	assert(cursor_y >= 0 && cursor_y < extent_y);
1.10    rillig 	if (cursor_x >= cur_max_x()) {
 1.4    rillig 		beep();
 1.6    rillig 		return false;
 1.4    rillig 	}
 1.4    rillig
1.10    rillig 	char och = lines.v[cursor_y].s[cursor_x];
 1.8    rillig 	if (!ch_isalpha(och)) {
 1.4    rillig 		beep();
 1.6    rillig 		return false;
 1.4    rillig 	}
 1.4    rillig
 1.8    rillig 	char loch = ch_tolower(och);
 1.8    rillig 	char uoch = ch_toupper(och);
 1.8    rillig 	char lch = ch_tolower(ch);
 1.8    rillig 	char uch = ch_toupper(ch);
 1.4    rillig
 1.9    rillig 	for (int y = 0; y < (int)lines.num; y++) {
1.10    rillig 		for (char *p = lines.v[y].s; *p != '\0'; p++) {
 1.9    rillig 			if (*p == loch)
 1.9    rillig 				*p = lch;
 1.9    rillig 			else if (*p == uoch)
 1.9    rillig 				*p = uch;
 1.9    rillig 			else if (*p == lch)
 1.9    rillig 				*p = loch;
 1.9    rillig 			else if (*p == uch)
 1.9    rillig 				*p = uoch;
 1.4    rillig 		}
 1.4    rillig 	}
 1.6    rillig 	return true;
 1.1  dholland }
 1.1  dholland
 1.1  dholland ////////////////////////////////////////////////////////////
 1.1  dholland
1.10    rillig static bool
1.10    rillig is_solved(void)
1.10    rillig {
1.10    rillig 	for (size_t i = 0; i < lines.num; i++)
1.10    rillig 		if (strcmp(lines.v[i].s, sollines.v[i].s) != 0)
1.10    rillig 			return false;
1.10    rillig 	return true;
1.10    rillig }
1.10    rillig
 1.4    rillig static void
 1.4    rillig redraw(void)
 1.4    rillig {
 1.4    rillig 	erase();
1.10    rillig
1.10    rillig 	int max_y = imin(LINES - 1, extent_y - offset_y);
1.10    rillig 	for (int y = 0; y < max_y; y++) {
1.10    rillig 		move(y, 0);
1.10    rillig
1.10    rillig 		int len = (int)lines.v[offset_y + y].len;
1.10    rillig 		int max_x = imin(COLS - 1, len - offset_x);
1.10    rillig 		const char *line = lines.v[offset_y + y].s;
1.10    rillig 		const char *solline = sollines.v[offset_y + y].s;
1.10    rillig
1.10    rillig 		for (int x = 0; x < max_x; x++) {
1.10    rillig 			char ch = line[offset_x + x];
1.10    rillig 			bool bold = hinting &&
1.10    rillig 			    ch == solline[offset_x + x] &&
1.10    rillig 			    ch_isalpha(ch);
1.10    rillig
1.10    rillig 			if (bold)
1.10    rillig 				attron(A_BOLD);
1.10    rillig 			addch(ch);
1.10    rillig 			if (bold)
1.10    rillig 				attroff(A_BOLD);
 1.4    rillig 		}
 1.4    rillig 		clrtoeol();
 1.4    rillig 	}
 1.4    rillig
 1.4    rillig 	move(LINES - 1, 0);
1.10    rillig 	if (is_solved())
 1.4    rillig 		addstr("*solved* ");
 1.4    rillig 	addstr("~ to quit, * to cheat, ^pnfb to move");
 1.4    rillig
1.10    rillig 	move(cursor_y - offset_y, cursor_x - offset_x);
 1.4    rillig
 1.4    rillig 	refresh();
 1.4    rillig }
 1.4    rillig
 1.4    rillig static void
 1.4    rillig opencurses(void)
 1.4    rillig {
 1.4    rillig 	initscr();
 1.4    rillig 	cbreak();
 1.4    rillig 	noecho();
1.10    rillig 	keypad(stdscr, true);
 1.4    rillig }
 1.4    rillig
 1.4    rillig static void
 1.4    rillig closecurses(void)
 1.4    rillig {
 1.4    rillig 	endwin();
 1.1  dholland }
 1.1  dholland
 1.1  dholland ////////////////////////////////////////////////////////////
 1.1  dholland
 1.4    rillig static void
1.10    rillig saturate_cursor(void)
1.10    rillig {
1.10    rillig 	assert(cursor_y >= 0);
1.10    rillig 	assert(cursor_y <= cur_max_y());
1.10    rillig
1.10    rillig 	assert(cursor_x >= 0);
1.10    rillig 	cursor_x = imin(cursor_x, cur_max_x());
1.10    rillig }
1.10    rillig
1.10    rillig static void
1.10    rillig scroll_into_view(void)
1.10    rillig {
1.10    rillig 	if (cursor_x < offset_x)
1.10    rillig 		offset_x = cursor_x;
1.10    rillig 	if (cursor_x > offset_x + COLS - 1)
1.10    rillig 		offset_x = cursor_x - (COLS - 1);
1.10    rillig
1.10    rillig 	if (cursor_y < offset_y)
1.10    rillig 		offset_y = cursor_y;
1.10    rillig 	if (cursor_y > offset_y + LINES - 2)
1.10    rillig 		offset_y = cursor_y - (LINES - 2);
1.10    rillig }
1.10    rillig
1.10    rillig static void
1.10    rillig handle_char_input(int ch)
 1.4    rillig {
1.10    rillig 	if (isascii(ch) && ch_isalpha((char)ch)) {
1.10    rillig 		if (substitute((char)ch)) {
1.10    rillig 			if (cursor_x < cur_max_x())
1.10    rillig 				cursor_x++;
1.10    rillig 			if (cursor_x == cur_max_x() &&
1.10    rillig 			    cursor_y < cur_max_y()) {
1.10    rillig 				cursor_x = 0;
1.10    rillig 				cursor_y++;
 1.4    rillig 			}
 1.4    rillig 		}
1.10    rillig 	} else if (cursor_x < cur_max_x() &&
1.10    rillig 	    ch == lines.v[cursor_y].s[cursor_x]) {
1.10    rillig 		cursor_x++;
1.10    rillig 		if (cursor_x == cur_max_x() &&
1.10    rillig 		    cursor_y < cur_max_y()) {
1.10    rillig 			cursor_x = 0;
1.10    rillig 			cursor_y++;
1.10    rillig 		}
1.10    rillig 	} else {
1.10    rillig 		beep();
 1.4    rillig 	}
 1.1  dholland }
 1.1  dholland
1.10    rillig static bool
1.10    rillig handle_key(void)
1.10    rillig {
1.10    rillig 	int ch = getch();
1.10    rillig
1.10    rillig 	switch (ch) {
1.10    rillig 	case 1:			/* ^A */
1.10    rillig 	case KEY_HOME:
1.10    rillig 		cursor_x = 0;
1.10    rillig 		break;
1.10    rillig 	case 2:			/* ^B */
1.10    rillig 	case KEY_LEFT:
1.10    rillig 		if (cursor_x > 0) {
1.10    rillig 			cursor_x--;
1.10    rillig 		} else if (cursor_y > 0) {
1.10    rillig 			cursor_y--;
1.10    rillig 			cursor_x = cur_max_x();
1.10    rillig 		}
1.10    rillig 		break;
1.10    rillig 	case 5:			/* ^E */
1.10    rillig 	case KEY_END:
1.10    rillig 		cursor_x = cur_max_x();
1.10    rillig 		break;
1.10    rillig 	case 6:			/* ^F */
1.10    rillig 	case KEY_RIGHT:
1.10    rillig 		if (cursor_x < cur_max_x()) {
1.10    rillig 			cursor_x++;
1.10    rillig 		} else if (cursor_y < cur_max_y()) {
1.10    rillig 			cursor_y++;
1.10    rillig 			cursor_x = 0;
1.10    rillig 		}
1.10    rillig 		break;
1.10    rillig 	case 12:		/* ^L */
1.10    rillig 		clear();
1.10    rillig 		break;
1.10    rillig 	case 14:		/* ^N */
1.10    rillig 	case KEY_DOWN:
1.10    rillig 		if (cursor_y < cur_max_y())
1.10    rillig 			cursor_y++;
1.10    rillig 		break;
1.10    rillig 	case 16:		/* ^P */
1.10    rillig 	case KEY_UP:
1.10    rillig 		if (cursor_y > 0)
1.10    rillig 			cursor_y--;
1.10    rillig 		break;
1.10    rillig 	case '*':
1.10    rillig 		hinting = !hinting;
1.10    rillig 		break;
1.10    rillig 	case '~':
1.10    rillig 		return false;
1.10    rillig 	default:
1.10    rillig 		handle_char_input(ch);
1.10    rillig 		break;
1.10    rillig 	}
1.10    rillig 	return true;
1.10    rillig }
 1.1  dholland
1.10    rillig static void
1.10    rillig init(void)
 1.4    rillig {
 1.4    rillig 	stringarray_init(&lines);
 1.4    rillig 	stringarray_init(&sollines);
 1.9    rillig 	srandom((unsigned int)time(NULL));
 1.4    rillig 	readquote();
 1.4    rillig 	encode();
 1.4    rillig 	opencurses();
1.10    rillig }
 1.4    rillig
1.10    rillig static void
1.10    rillig loop(void)
1.10    rillig {
1.10    rillig 	for (;;) {
1.10    rillig 		redraw();
1.10    rillig 		if (!handle_key())
1.10    rillig 			break;
1.10    rillig 		saturate_cursor();
1.10    rillig 		scroll_into_view();
1.10    rillig 	}
1.10    rillig }
 1.4    rillig
1.10    rillig static void
1.10    rillig clean_up(void)
1.10    rillig {
 1.4    rillig 	closecurses();
 1.4    rillig 	stringarray_cleanup(&sollines);
 1.4    rillig 	stringarray_cleanup(&lines);
 1.1  dholland }
1.10    rillig
1.10    rillig ////////////////////////////////////////////////////////////
1.10    rillig
1.10    rillig int
1.10    rillig main(void)
1.10    rillig {
1.10    rillig 	init();
1.10    rillig 	loop();
1.10    rillig 	clean_up();
1.10    rillig }