watches / lunar / lunar.c

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/** \file
 * Draw a lunar face clock as well as the sun-up, sun-down times.
 */
#include <string.h>
#include "main.h"
#include "draw.h"
#include "image.h"
#include "sin_table.h"

#define CONFIG_DEMO_MODE
#ifdef CONFIG_DEMO_MODE
static struct pulse_time_tm now;
#endif

static uint8_t last_sec;
static uint16_t last_angle;
static PulseResource image_id;
#define CX (SCREEN_WIDTH/2)
#define CY (81/2 + 8)
#define IMG_X (CX - 81/2)
#define IMG_Y (CY - 81/2)


// Inspired by http://www.colourlovers.com/palette/1391455/lunar_eclipse
static const color24_t night_color = { 42, 35, 53 };
// static const color24_t day_color = { 183, 64, 50 };
static const color24_t day_color = { 99, 45, 59 };
static const color24_t date_color = { 65, 34, 52 };
static const color24_t time_color = { 248, 90, 64 };
static const color24_t hand_color = { 0, 0, 20 };


void
button_down(void)
{
	last_sec = -1;
	init();
}


void
button_up(
	uint32_t ms
)
{
	// Nothing to do
	(void) ms;
}




static void
circle_line(
	color24_t color,
	int32_t x0,
	int32_t y0,
	int32_t radius
)
{
	int32_t f = 1 - radius;
	int ddF_x = 1;
	int ddF_y = -2 * radius;
	int x = 0;
	int y = radius;

	draw_pixel(color, x0, y0 + radius);
	draw_pixel(color, x0, y0 - radius);
	draw_pixel(color, x0 + radius, y0);
	draw_pixel(color, x0 - radius, y0);

	while (x < y)
	{
		if (f >= 0)
		{
			y--;
			ddF_y += 2;
			f += ddF_y;
		}
		x++;
		ddF_x += 2;
		f += ddF_x;

		draw_pixel(color, x0 + x, y0 + y);
		draw_pixel(color, x0 + x, y0 - y);
		draw_pixel(color, x0 - x, y0 + y);
		draw_pixel(color, x0 - x, y0 - y);

		draw_pixel(color, x0 + y, y0 + x);
		draw_pixel(color, x0 + y, y0 - x);
		draw_pixel(color, x0 - y, y0 + x);
		draw_pixel(color, x0 - y, y0 - x);
	}
}


void
fill(
	color24_t color,
	int32_t x0,
	int32_t y0,
	int32_t x1,
	int32_t y1
)
{
	int32_t temp;
	if (x0 > x1)
	{
		temp = x0;
		x0 = x1;
		x1 = temp;
	}
	if (y0 > y1)
	{
		temp = y0;
		y0 = y1;
		y1 = temp;
	}

	if (x1 < 0 || y1 < 0)
		return;
	if (x0 >= SCREEN_WIDTH || y1 >= SCREEN_HEIGHT)
		return;
	if (x0 < 0)
		x0 = 0;
	if (y0 < 0)
		y0 = 0;
	if (x1 >= SCREEN_WIDTH)
		x1 = SCREEN_WIDTH - 1;
	if (y1 >= SCREEN_HEIGHT)
		y1 = SCREEN_HEIGHT - 1;

	int32_t h = y1 - y0 + 1;
	int32_t w = x1 - x0 + 1;
	uint16_t num = w * h;
	if (num == 0)
		return;
	
	pulse_set_draw_window(x0, y0, x1, y1);

	while (num--)
		pulse_draw_point24(color);
}


static void
circle_fill(
	color24_t color,
	int32_t x0,
	int32_t y0,
	int32_t radius
)
{
	int32_t f = 1 - radius;
	int ddF_x = 1;
	int ddF_y = -2 * radius;
	int x = 0;
	int y = radius;

	fill(color, x0 - radius, y0, x0 + radius, y0);

	while (x < y)
	{
		if (f >= 0)
		{
			y--;
			ddF_y += 2;
			f += ddF_y;
		}
		x++;
		ddF_x += 2;
		f += ddF_x;

		fill(color, x0 - x, y0 + y, x0 + x, y0 + y);
		fill(color, x0 - x, y0 - y, x0 + x, y0 - y);
		fill(color, x0 - y, y0 + x, x0 + y, y0 + x);
		fill(color, x0 - y, y0 - x, x0 + y, y0 - x);
	}
}


static void
draw_arc(
	color24_t color,
	int32_t cx,
	int32_t cy,
	int32_t radius,
	int32_t dot_radius,
	uint32_t angle1,
	uint32_t angle2
)
{
	const uint16_t step = 128;

	for (uint32_t t = angle1 ; t < angle2  ; t += step)
	{
		const uint16_t angle = t;
		const int16_t sx = (radius * sin_lookup(angle)) / 32768;
		const int16_t sy = (radius * cos_lookup(angle)) / 32768;

		circle_fill(
			color,
			cx + sx,
			cy - sy,
			dot_radius
		);
	}
}


static inline uint16_t
ntohs(
	uint16_t v
)
{
	return (v >> 8) | (v << 8);
}


/** Conway's algorithm for determining the phase of the moon */
static uint8_t
moon_phase(
        uint32_t year,
        uint32_t month,
        uint32_t day
)
{
        int32_t r = year % 100;
        r %= 19;
        if (r > 9)
                r -= 19;
        r = ((r * 11) % 30) + month + day;
        if (month < 3)
                r += 2;
        r *= 10;
        r -= 83; // conway uses r -= 8.3, but we don't have floating point
        r = (r + 5) / 10; // floor(r)
        r %= 30;
        return r < 0 ? r + 30 : r;
}


void
init(void)
{
#ifndef CONFIG_DEMO_MODE
	// If not in demo mode, we read the current time
	struct pulse_time_tm now;
	pulse_get_time_date(&now);
#else
	// In demo mode we only read the year once
	if (last_sec == (uint8_t) -1)
		pulse_get_time_date(&now);
	now.tm_sec = 0;
	now.tm_min = 0;
#endif

	last_sec = -1;
	last_angle = -1;


	//uint32_t phase = moon_phase(now.tm_year, now.tm_mon, now.tm_mday);
	uint32_t phase = moon_phase(now.tm_year, now.tm_mon + 1, now.tm_mday + 1);
	image_id = IMAGE_M000 + phase;
	if (image_id > IMAGE_M348)
		image_id = IMAGE_M060;

	image_draw_gray(image_id, IMG_X, IMG_Y);

	uint16_t sunrise_times[2];

	// tm_mon goes from 0 to 11
	// tm_mday goes from 0 to 30
	// sunrise times are stored 32/month
	uint32_t offset = image_offset(IMAGE_SUNRISE)
		+ (now.tm_mon * 32 + now.tm_mday) * sizeof(sunrise_times);

	spiflash_read(
		offset,
		sunrise_times,
		sizeof(sunrise_times)
	);

	// Scale the sunrise time to angles
	uint32_t sunrise = ntohs(sunrise_times[0]);
	sunrise = (sunrise * 65536) / (24 * 60);
	uint32_t sunset = ntohs(sunrise_times[1]);
	sunset = (sunset * 65536) / (24 * 60);

	draw_arc(
		night_color,
		CX,
		CY - 1,
		81/2 + 3,
		1,
		sunset,
		sunrise + 65536
	);

	draw_arc(
		day_color,
		CX,
		CY - 1,
		81/2 + 3,
		1,
		sunrise,
		sunset
	);

	// Draw hours?
	for (int hour = 0 ; hour < 23 ; hour++)
	{
	}
}


static void
draw_hour_hand(
	uint16_t angle
)
{
	const int32_t rad = 32;

	if (angle == last_angle)
		return;

	// Fill in the old hand
	int32_t s = sin_lookup(last_angle);
	int32_t c = cos_lookup(last_angle);
	int32_t dx = +(s * rad) / 32768;
	int32_t dy = -(c * rad) / 32768;
	int32_t sx = +(c * 5) / 32768;
	int32_t sy = +(s * 5) / 32768;
	
	draw_line_bg(
		image_id,
		IMG_X,
		IMG_Y,
		CX - sx,
		CY - sy,
		CX + sx,
		CY + sy
	);

	draw_line_bg(
		image_id,
		IMG_X,
		IMG_Y,
		CX + sx,
		CY + sy,
		CX + dx,
		CY + dy
	);

	draw_line_bg(
		image_id,
		IMG_X,
		IMG_Y,
		CX - sx,
		CY - sy,
		CX + dx,
		CY + dy
	);

	s = sin_lookup(angle);
	c = cos_lookup(angle);
	dx = +(s * rad) / 32768;
	dy = -(c * rad) / 32768;
	sx = +(c * 5) / 32768;
	sy = +(s * 5) / 32768;


	draw_line(
		hand_color,
		CX + sx,
		CY + sy,
		CX + dx,
		CY + dy
	);

	draw_line(
		hand_color,
		CX - sx,
		CY - sy,
		CX + dx,
		CY + dy
	);

	draw_line(
		hand_color,
		CX - sx,
		CY - sy,
		CX + sx,
		CY + sy
	);

	last_angle = angle;
}


void
draw(
	uint32_t cur_ms
)
{
#ifdef CONFIG_DEMO_MODE
	if (++now.tm_hour == 24)
	{
		now.tm_hour = 0;
		if (++now.tm_mday == 31)
		{
			now.tm_mday = 0;
			if (++now.tm_mon == 12)
				now.tm_mon = 0;
		}
	}
#else
	struct pulse_time_tm now;
	pulse_get_time_date(&now);

	if (last_sec == now.tm_sec)
		return;
#endif

	// Every night at midnight redraw it all
	// or every time they hit the button
	if (last_sec == (uint8_t) -1
	||  (now.tm_hour == 0 && now.tm_min == 0 && now.tm_sec == 0))
		init();
		
	last_sec = now.tm_sec;

	uint32_t hour = now.tm_hour;
	uint32_t min = now.tm_min;
	uint32_t sec = now.tm_sec;
	
	uint16_t hour_angle = ((hour * 60 * 60 + min * 60 + sec) * 32768) / (24 * 60 * 60 / 2);

	//uint16_t hour_angle = (sec * 65536) / 60;
	draw_hour_hand(hour_angle);

	// This seems inconsistent sometimes it is full year,
	// other times it is Unix year.
	if (now.tm_year < 1900)
		now.tm_year += 1900;

	char buf[16];
	const uint32_t time_y = SCREEN_HEIGHT - 22;
	sprintf(buf, "%02d", now.tm_hour);
	draw_monostring(
		4,
		time_y,
		time_color,
		FONT_CLOCKOPIA_22,
		12,
		22,
		buf
	);

	sprintf(buf, "%02d", now.tm_min);
	draw_monostring(
		36,
		time_y,
		time_color,
		FONT_CLOCKOPIA_22,
		12,
		22,
		buf
	);

	sprintf(buf, "%02d", now.tm_sec);
	draw_monostring(
		68,
		time_y,
		time_color,
		FONT_CLOCKOPIA_22,
		12,
		22,
		buf
	);

	sprintf(buf, "%04d/%02d/%02d",
		now.tm_year,
		now.tm_mon + 1,
		now.tm_mday + 1
	);
	draw_monostring(
		4,
		SCREEN_HEIGHT - 36,
		date_color,
		FONT_CLOCKOPIA_14,
		9,
		14,
		buf
	);

}
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