#include "test.priv.h" #include #include /* tclock - analog/digital clock for curses. If it gives you joy, then (a) I'm glad (b) you need to get out more :-) This program is copyright Howard Jones, September 1994 (ha.jones@ic.ac.uk). It may be freely distributed as long as this copyright message remains intact, and any modifications are clearly marked as such. [In fact, if you modify it, I wouldn't mind the modifications back, especially if they add any nice features. A good one would be a precalc table for the 60 hand positions, so that the floating point stuff can be ditched. As I said, it was a 20 hackup minute job.] COMING SOON: tfishtank. Be the envy of your mac-owning colleagues. */ /* To compile: cc -o tclock tclock.c -lcurses -lm */ #ifndef PI #define PI 3.141592654 #endif #define sign(_x) (_x<0?-1:1) #define ASPECT 2.2 #define ROUND(value) ((int)((value) + 0.5)) #define A2X(angle,radius) ROUND(ASPECT * radius * sin(angle)) #define A2Y(angle,radius) ROUND(radius * cos(angle)) /* Plot a point */ static void plot(int x, int y, char col) { mvaddch(y, x, (chtype) col); } /* Draw a diagonal(arbitrary) line using Bresenham's alogrithm. */ static void dline(int pair, int from_x, int from_y, int x2, int y2, char ch) { int dx, dy; int ax, ay; int sx, sy; int x, y; int d; if (has_colors()) attrset(COLOR_PAIR(pair)); dx = x2 - from_x; dy = y2 - from_y; ax = abs(dx * 2); ay = abs(dy * 2); sx = sign(dx); sy = sign(dy); x = from_x; y = from_y; if (ax > ay) { d = ay - (ax / 2); while (1) { plot(x, y, ch); if (x == x2) return; if (d >= 0) { y += sy; d -= ax; } x += sx; d += ay; } } else { d = ax - (ay / 2); while (1) { plot(x, y, ch); if (y == y2) return; if (d >= 0) { x += sx; d -= ay; } y += sy; d += ax; } } } int main( int argc GCC_UNUSED, char *argv[]GCC_UNUSED) { int i, cx, cy; double mradius, hradius, mangle, hangle; double sangle, sradius, hours; int hdx, hdy; int mdx, mdy; int sdx, sdy; int ch; int lastbeep = -1; time_t tim; struct tm *t; char szChar[10]; int my_bg = COLOR_BLACK; initscr(); noecho(); cbreak(); nodelay(stdscr, TRUE); curs_set(0); if (has_colors()) { start_color(); #ifdef HAVE_USE_DEFAULT_COLORS if (use_default_colors() == OK) my_bg = -1; #endif init_pair(1, COLOR_RED, my_bg); init_pair(2, COLOR_MAGENTA, my_bg); init_pair(3, COLOR_GREEN, my_bg); } #ifdef KEY_RESIZE keypad(stdscr, TRUE); restart: #endif cx = (COLS - 1) / 2; /* 39 */ cy = LINES / 2; /* 12 */ ch = (cx > cy) ? cy : cx; /* usually cy */ mradius = (3 * cy) / 4; /* 9 */ hradius = cy / 2; /* 6 */ sradius = (2 * cy) / 3; /* 8 */ for (i = 0; i < 12; i++) { sangle = (i + 1) * (2.0 * PI) / 12.0; sradius = (5 * cy) / 6; /* 10 */ sdx = A2X(sangle, sradius); sdy = A2Y(sangle, sradius); sprintf(szChar, "%d", i + 1); mvaddstr(cy - sdy, cx + sdx, szChar); } mvaddstr(0, 0, "ASCII Clock by Howard Jones (ha.jones@ic.ac.uk),1994"); sradius = 8; for (;;) { napms(1000); tim = time(0); t = localtime(&tim); hours = (t->tm_hour + (t->tm_min / 60.0)); if (hours > 12.0) hours -= 12.0; mangle = ((t->tm_min) * (2 * PI) / 60.0); mdx = A2X(mangle, mradius); mdy = A2Y(mangle, mradius); hangle = ((hours) * (2.0 * PI) / 12.0); hdx = A2X(hangle, hradius); hdy = A2Y(hangle, hradius); sangle = ((t->tm_sec) * (2.0 * PI) / 60.0); sdx = A2X(sangle, sradius); sdy = A2Y(sangle, sradius); dline(3, cx, cy, cx + mdx, cy - mdy, '#'); attrset(A_REVERSE); dline(2, cx, cy, cx + hdx, cy - hdy, '.'); attroff(A_REVERSE); if (has_colors()) attrset(COLOR_PAIR(1)); plot(cx + sdx, cy - sdy, 'O'); if (has_colors()) attrset(COLOR_PAIR(0)); mvaddstr(LINES - 2, 0, ctime(&tim)); refresh(); if ((t->tm_sec % 5) == 0 && t->tm_sec != lastbeep) { lastbeep = t->tm_sec; beep(); } if ((ch = getch()) != ERR) { #ifdef KEY_RESIZE if (ch == KEY_RESIZE) { erase(); goto restart; } #endif break; } plot(cx + sdx, cy - sdy, ' '); dline(0, cx, cy, cx + hdx, cy - hdy, ' '); dline(0, cx, cy, cx + mdx, cy - mdy, ' '); } curs_set(1); endwin(); return 0; }