[mirrors/Programs.git] / c / aclox.c

/*
 * Compile with:
 * gcc -lm aclox.c -o aclox; ./aclox
 * or
 * CFLAGS='-lm' make aclox; ./aclox
 */

#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <math.h>
#include <time.h>

#include <termios.h>
#include <sys/ioctl.h>

//config
#define HOUR_NUMBERS 1
#define HI_PRECISION 1
#define SHOW_DIGITS 1
#define MINUTE_DOTS 1
#define SMOOTH_MOTION 1
#define zoom 2

//useful macros
#define max(a,b) ((a)>=(b)?(a):(b))
#define min(a,b) ((a)<=(b)?(a):(b))
#define PI 3.141592654
#define deg2rad(a) (((a)/180)*PI)
//phi = angle, r = length
#define polar2x(phi, r) ((r) * cos(deg2rad(phi)))
#define polar2y(phi, r) ((r) * sin(deg2rad(phi)))
#define cls() printf("\033[2J")
#define top() printf("\033[0;0H")

int llines = -1, lcols = -1;
void render_clock(double h, double m, double s) {
	//colors
	char color_empty = ' ';
	char color_center = '+';
	char color_number = '#';
	char color_dot = '.';
	char color_h = 'H';
	char color_m = 'm';
	char color_s = '*';

	//convert digital time to "analog" time (enables smooth motion)
	if(SMOOTH_MOTION) {
		m += s/(double)60;
		h += m/(double)60;
	}

	//get size of terminal
	int lines = 20;
	int cols = 20;
	/*FILE *p;
	p = popen("stty size", "r");
	fscanf(p, "%d %d", &lines, &cols);
	close((int)p);*/
	struct winsize ws;
	if ((ioctl(STDOUT_FILENO, TIOCGWINSZ, &ws) == -1 &&
		ioctl(STDERR_FILENO, TIOCGWINSZ, &ws) == -1 &&
		ioctl(STDIN_FILENO,  TIOCGWINSZ, &ws) == -1) ||
		ws.ws_col == 0) {
			lines = 25;
			cols = 80;
	} else {
		lines = ws.ws_row;
		cols = ws.ws_col;
	}

	//calculate size
	int size = 40;
	size = min(lines,cols/zoom);
	size = ((size%2)==0?size-1:size); //make size odd
	//printf("%d\n", size);

	//empty canvas
	char cifernik[size*zoom][size];
	int i, x, y;
	double phi, r;
	for(y=0;y<size;y++) for(x=0;x<(size*zoom);x++) cifernik[x][y] = color_empty;

	//draw minute dots
	if(MINUTE_DOTS && size > 40) for(i=1;i<=60;i++) {
		phi = -90+(i*(360/60));
		r = size/2;
		x = round((r+polar2x(phi,r))*zoom);
		y = round(r+polar2y(phi,r));
		cifernik[x][y] = color_dot;
	}

	//draw numbers
	for(i=1;i<=12;i++) {
		phi = -90+(i*(360/12));
		r = size/2;
		x = round((r+polar2x(phi,r))*zoom);
		y = round(r+polar2y(phi,r));
		if(HOUR_NUMBERS) {
			cifernik[x][y] = '0'+(i%10);
			if(i>9) cifernik[x-1][y] = '0'+(i/10);
		} else {
			cifernik[x][y] = color_number;
		}
	}

	//draw minute hand
	phi = -90+(m*(360/60));
	for(r=0;r<(size/2);r++) {
		x = round((size/2+polar2x(phi,r))*zoom);
		y = round(size/2+polar2y(phi,r));
		cifernik[x][y] = color_m;
	}

	//draw hour hand
	phi = -90+(h*(double)(360/12));
	for(r=0;r<(size/3);r++) {
		x = round((size/2+polar2x(phi,r))*zoom);
		y = round(size/2+polar2y(phi,r));
		cifernik[x][y] = color_h;
	}

	//draw seconds hand
	phi = -90+(s*(360/60));
	for(r=0;r<(size/2);r++) {
		x = round((size/2+polar2x(phi,r))*zoom);
		y = round(size/2+polar2y(phi,r));
		cifernik[x][y] = color_s;
	}

	//draw center dot
	cifernik[(size/2)*zoom][size/2] = color_center;

	//cls when terminal size changes
	if(lines != llines || cols != lcols) {
		cls();
		llines=lines;
		lcols=cols;
	}

	//print to terminal
	for(y=0;y<size;y++) {
		for(r=0;r<=((cols-(size*zoom))/2);r++) putchar(' ');
		for(x=0;x<((size*zoom)-(zoom-1));x++) {
			putchar(cifernik[x][y]);
		}
		if(y!=(size-1)) putchar('\n');
	}
}

int main(void) {
	int s = -1;
	time_t cast;
	struct tm *cas;

	while(1) {
		cast = time(NULL);
		cas = localtime(&cast);

		if(cas->tm_sec != s){
			s = cas->tm_sec;
			top();
			render_clock(cas->tm_hour,cas->tm_min,cas->tm_sec); //analog
			if(SHOW_DIGITS) printf("\r[%.2d:%.2d:%.2d]",cas->tm_hour,cas->tm_min,cas->tm_sec); //digital
		}
		if(HI_PRECISION) { usleep(100000); }
		else { sleep(1); }
	}
}
Commit	Line	Data
	1	/*
	2	* Compile with:
	3	* gcc -lm aclox.c -o aclox; ./aclox
	4	* or
	5	* CFLAGS='-lm' make aclox; ./aclox
	6	*/
	7
	8	#include <stdio.h>
	9	#include <stdlib.h>
	10	#include <unistd.h>
	11	#include <math.h>
	12	#include <time.h>
	13
	14	#include <termios.h>
	15	#include <sys/ioctl.h>
	16
	17	//config
	18	#define HOUR_NUMBERS 1
	19	#define HI_PRECISION 1
	20	#define SHOW_DIGITS 1
	21	#define MINUTE_DOTS 1
	22	#define SMOOTH_MOTION 1
	23	#define zoom 2
	24
	25	//useful macros
	26	#define max(a,b) ((a)>=(b)?(a):(b))
	27	#define min(a,b) ((a)<=(b)?(a):(b))
	28	#define PI 3.141592654
	29	#define deg2rad(a) (((a)/180)*PI)
	30	//phi = angle, r = length
	31	#define polar2x(phi, r) ((r) * cos(deg2rad(phi)))
	32	#define polar2y(phi, r) ((r) * sin(deg2rad(phi)))
	33	#define cls() printf("\033[2J")
	34	#define top() printf("\033[0;0H")
	35
	36	int llines = -1, lcols = -1;
	37	void render_clock(double h, double m, double s) {
	38	//colors
	39	char color_empty = ' ';
	40	char color_center = '+';
	41	char color_number = '#';
	42	char color_dot = '.';
	43	char color_h = 'H';
	44	char color_m = 'm';
	45	char color_s = '*';
	46
	47	//convert digital time to "analog" time (enables smooth motion)
	48	if(SMOOTH_MOTION) {
	49	m += s/(double)60;
	50	h += m/(double)60;
	51	}
	52
	53	//get size of terminal
	54	int lines = 20;
	55	int cols = 20;
	56	/FILE p;
	57	p = popen("stty size", "r");
	58	fscanf(p, "%d %d", &lines, &cols);
	59	close((int)p);*/
	60	struct winsize ws;
	61	if ((ioctl(STDOUT_FILENO, TIOCGWINSZ, &ws) == -1 &&
	62	ioctl(STDERR_FILENO, TIOCGWINSZ, &ws) == -1 &&
	63	ioctl(STDIN_FILENO, TIOCGWINSZ, &ws) == -1) \|\|
	64	ws.ws_col == 0) {
	65	lines = 25;
	66	cols = 80;
	67	} else {
	68	lines = ws.ws_row;
	69	cols = ws.ws_col;
	70	}
	71
	72	//calculate size
	73	int size = 40;
	74	size = min(lines,cols/zoom);
	75	size = ((size%2)==0?size-1:size); //make size odd
	76	//printf("%d\n", size);
	77
	78	//empty canvas
	79	char cifernik[size*zoom][size];
	80	int i, x, y;
	81	double phi, r;
	82	for(y=0;y<size;y++) for(x=0;x<(size*zoom);x++) cifernik[x][y] = color_empty;
	83
	84	//draw minute dots
	85	if(MINUTE_DOTS && size > 40) for(i=1;i<=60;i++) {
	86	phi = -90+(i*(360/60));
	87	r = size/2;
	88	x = round((r+polar2x(phi,r))*zoom);
	89	y = round(r+polar2y(phi,r));
	90	cifernik[x][y] = color_dot;
	91	}
	92
	93	//draw numbers
	94	for(i=1;i<=12;i++) {
	95	phi = -90+(i*(360/12));
	96	r = size/2;
	97	x = round((r+polar2x(phi,r))*zoom);
	98	y = round(r+polar2y(phi,r));
	99	if(HOUR_NUMBERS) {
	100	cifernik[x][y] = '0'+(i%10);
	101	if(i>9) cifernik[x-1][y] = '0'+(i/10);
	102	} else {
	103	cifernik[x][y] = color_number;
	104	}
	105	}
	106
	107	//draw minute hand
	108	phi = -90+(m*(360/60));
	109	for(r=0;r<(size/2);r++) {
	110	x = round((size/2+polar2x(phi,r))*zoom);
	111	y = round(size/2+polar2y(phi,r));
	112	cifernik[x][y] = color_m;
	113	}
	114
	115	//draw hour hand
	116	phi = -90+(h*(double)(360/12));
	117	for(r=0;r<(size/3);r++) {
	118	x = round((size/2+polar2x(phi,r))*zoom);
	119	y = round(size/2+polar2y(phi,r));
	120	cifernik[x][y] = color_h;
	121	}
	122
	123	//draw seconds hand
	124	phi = -90+(s*(360/60));
	125	for(r=0;r<(size/2);r++) {
	126	x = round((size/2+polar2x(phi,r))*zoom);
	127	y = round(size/2+polar2y(phi,r));
	128	cifernik[x][y] = color_s;
	129	}
	130
	131	//draw center dot
	132	cifernik[(size/2)*zoom][size/2] = color_center;
	133
	134	//cls when terminal size changes
	135	if(lines != llines \|\| cols != lcols) {
	136	cls();
	137	llines=lines;
	138	lcols=cols;
	139	}
	140
	141	//print to terminal
	142	for(y=0;y<size;y++) {
	143	for(r=0;r<=((cols-(size*zoom))/2);r++) putchar(' ');
	144	for(x=0;x<((size*zoom)-(zoom-1));x++) {
	145	putchar(cifernik[x][y]);
	146	}
	147	if(y!=(size-1)) putchar('\n');
	148	}
	149	}
	150
	151	int main(void) {
	152	int s = -1;
	153	time_t cast;
	154	struct tm *cas;
	155
	156	while(1) {
	157	cast = time(NULL);
	158	cas = localtime(&cast);
	159
	160	if(cas->tm_sec != s){
	161	s = cas->tm_sec;
	162	top();
	163	render_clock(cas->tm_hour,cas->tm_min,cas->tm_sec); //analog
	164	if(SHOW_DIGITS) printf("\r[%.2d:%.2d:%.2d]",cas->tm_hour,cas->tm_min,cas->tm_sec); //digital
	165	}
	166	if(HI_PRECISION) { usleep(100000); }
	167	else { sleep(1); }
	168	}
	169	}