/*
* File: main.c
*
- * Created on August 16, 2010, 12:09 PM
+ * PWM test program
+ *
+ * PIC resources in use, 28-pin DIP, by pin:
+ * - ( 1) RE3 - Vpp/MCLR#
+ * - ( 2) RA0 - unused
+ * - ( 3) RA1 - unused
+ * - ( 4) RA2 - unused
+ * - ( 5) RA3 - unused
+ * - ( 6) RA4 - unused (could become PGM/LVP, but apparently not needed)
+ * - ( 7) RA5 - unused
+ * - ( 8) Vss
+ * - ( 9) RA7 - unused
+ * - (10) RA6 - unused
+ * - (11) RC0 - T1OSO
+ * - (12) RC1 - T1OSI
+ * - (13) RC2 - CCP1 PWM for red LED
+ * - (14) RC3 - unused
+ * - (15) RC4 - unused
+ * - (16) RC5 - unused
+ * - (17) RC6 - unused
+ * - (18) RC7 - unused
+ * - (19) Vss
+ * - (20) Vdd
+ * - (21) RB0 - CCP4 PWM for wht LED
+ * - (22) RB1 - Pushbutton
+ * - (23) RB2 - Rocker switch, right
+ * - (24) RB3 - CCP2 PWM for grn LED
+ * - (25) RB4 - Rocker switch, left
+ * - (26) RB5 - CCP3 PWM for blu LED
+ * - (27) RB6 - ICSPCLK
+ * - (28) RB7 - ICSPDAT
*/
-
#include <htc.h>
-#include <pic16f1827.h>
-
-#define RUNAT32MHZ /* else 16 MHz */
-#define BRIGHT_STEP 16 /* starts at 0 */
-#define BRIGHT_STEPS 16 /* includes 0 */
-#define LEDBIT 0x01 /* PORTB.3 */
+#include <stdlib.h>
+#include "picinit.h"
+#include "unused.h"
+#include "btn.h"
+#include "rgb.h"
+#include "tmr.h"
+#include "tmr32.h"
+#include "task.h"
+#include "adc_random.h"
-#if defined(RUNAT32MHZ)
-__CONFIG(WDTE_OFF & FOSC_INTOSC);
-__CONFIG(LVP_OFF & PLLEN_ON);
+#if 1
+#define AUTO_OFF_COUNT 1800U /* 1 hr in 2 sec units */
+#define AUTO_ON_COUNT 19800U /* 11 hrs in 2 sec units */
#else
-__CONFIG(WDTE_OFF);
-__CONFIG(LVP_OFF);
+#define AUTO_OFF_COUNT 9000U /* 5 hrs in 2 sec units */
+#define AUTO_ON_COUNT 34200U /* 19 hrs in 2 sec units */
#endif
+#define leds_set(r,g,b,w) rgb_set((r).value >> 7, (g).value >> 7, \
+ (b).value >> 7, 0)
+#define dbgpin_init() do { \
+ /* Set RA2 as output low */ \
+ RA2 = 0; \
+ TRISA2 = 0; \
+ } while (0)
+#define dbgpin_high() (RA2 = 1)
+#define dbgpin_low() (RA2 = 0)
+#define dbgpin_toggle() (RA2 = (LATA2 == 0) ? 1 : 0)
-void pic_init()
+typedef struct {
+ int value;
+ int increment;
+ signed char remainder;
+} led_t;
+
+/* The index of all step arrays is the speed variable. min values must be
+ * at least one. range values are bit-ANDed with rand() to generate a range, so
+ * ensure they are one less than a power of 2 and at least 1.
+ */
+const static unsigned min_incolor_steps[4] = { 320, 32, 32, 1 };
+const static unsigned range_incolor_steps[4] = { 32767, 127, 31, 7 };
+const static int min_fade_steps[4] = { 64, 32, 32, 8 };
+const static int range_fade_steps[4] = { 511, 127, 31, 7 };
+
+led_t red;
+led_t grn;
+led_t blu;
+led_t wht;
+bit on;
+unsigned char speed;
+int fade_steps;
+
+void start_fade()
{
-#if defined(RUNAT32MHZ)
- OSCCON = 0b11110000;
-#else /* 16 MHz */
- OSCCON = 0b01111010;
-#endif
+ /* RGB PWM values are 8 bits, but computations are done in 15
+ * (leaving room for a sign bit), so leds_set() uses >>7 to convert
+ * to PWM values.
+ */
+ int newr, newg, newb, neww;
+
+ /* New RGB values; all zero is not a valid option */
+ do {
+ newr = rand();
+ newg = rand();
+ newb = rand();
+ neww = rand();
+ } while (newr == 0 && newg == 0 && newb == 0 && neww == 0);
- /* OSCSTAT.HFIOFL is set when oscillator is locked (accurate within 2%) */
- while (!HFIOFL);
+ /* Random # of steps to reach the new color */
+ fade_steps = min_fade_steps[speed & 3] +
+ (rand() & range_fade_steps[speed & 3]);
+
+ /* Compute increment per fade step, and remainder, for each led */
+ red.increment = (newr - red.value) / fade_steps;
+ red.remainder = newr - (red.value + red.increment * fade_steps);
+ grn.increment = (newg - grn.value) / fade_steps;
+ grn.remainder = newg - (grn.value + grn.increment * fade_steps);
+ blu.increment = (newb - blu.value) / fade_steps;
+ blu.remainder = newb - (blu.value + blu.increment * fade_steps);
+ wht.increment = (neww - wht.value) / fade_steps;
+ wht.remainder = neww - (wht.value + wht.increment * fade_steps);
+
+ /* Start the fade timer */
+ tmr_stop(TMR_INCOLOR);
+ tmr_startPeriodic(TMR_FADE, 1); /* 32.768 msec */
}
-void pwm_init()
+void turnOn()
{
- /* Initialize PWM on PORTB.0
- * - Fosc = 32MHz
- * - Prescale = 16
- * - PRx value = 0xff
- * = f(pwm) = 1.95 kHz
- */
-
- /* Disable output on PORTB.0 */
- TRISB |= 0x08;
+ dbgpin_high();
+ on = 1;
+ red.value = 0;
+ grn.value = 0;
+ blu.value = 0;
+ wht.value = 0;
+ leds_set(red, grn, blu, wht);
+ rgb_on();
+ start_fade();
+ btn_pben();
+}
- /* Configure ECCP1 */
- CCP1CON = 0b00001100;
- CCPR1L = 0; /* Initial PWM value; only using 8 LSBs */
+void turnOff()
+{
+ /* Event on to off, either by switch or auto-off timer */
+ tmr_stop(TMR_INCOLOR);
+ tmr_stop(TMR_FADE);
+ rgb_off();
+ dbgpin_low();
+ SLEEP();
+ on = 0;
+}
- /* Configure Timer2 */
- CCPTMRS = CCPTMRS & ~0x03; /* bits 1:0 denote CCP1 uses Timer 2 */
- TMR2IF = 0;
- PR2 = 0xff;
- T2CON = 0b00000111;
+void pb_task()
+{
+ /* Is this task running nearly continuously? */
+ if (on) {
+ if (btn_pb() == BTN_PB_UP) {
+ speed = (speed + 1) & 3;
+ start_fade();
+ }
+ btn_pben();
+ }
+}
- /* Enable PWM output, PORTB.0 */
- while (!TMR2IF); /* wait until timer overflow */
- TRISB &= ~0x08;
+void rs_task()
+{
+ btn_rsen();
+ switch (btn_rs()) {
+ case BTN_RS_OFF:
+ tmr32_set(0);
+ turnOff();
+ break;
+ case BTN_RS_RIGHT:
+ tmr32_set(AUTO_OFF_COUNT);
+ /* fall through */
+ case BTN_RS_LEFT:
+ turnOn();
+ break;
+ }
}
-void led_init()
+void fade_task()
{
- PORTB &= ~LEDBIT; /* Led is PORTB.3 */
- TRISB &= ~LEDBIT;
+ red.value += red.increment;
+ grn.value += grn.increment;
+ blu.value += blu.increment;
+ wht.value += wht.increment;
+ if (--fade_steps == 0) {
+ /* This is the last fade step. Finalize the RGB led states and decide how
+ * long to stay in this color.
+ */
+ red.value += red.remainder;
+ grn.value += grn.remainder;
+ blu.value += blu.remainder;
+ wht.value += wht.remainder;
+ tmr_stop(TMR_FADE);
+ tmr_start(TMR_INCOLOR, min_incolor_steps[speed & 3] +
+ (rand() & range_incolor_steps[speed & 3]));
+ }
+ leds_set(red, grn, blu, wht);
}
-void led_set(unsigned short led)
+void auto_offon_task()
{
- if (led)
- PORTB |= LEDBIT;
- else
- PORTB &= ~LEDBIT;
+ if (on) {
+ turnOff();
+ if (btn_rs() == BTN_RS_RIGHT)
+ tmr32_set(AUTO_ON_COUNT);
+ } else /* off */ {
+ turnOn();
+ if (btn_rs() == BTN_RS_RIGHT)
+ tmr32_set(AUTO_OFF_COUNT);
+ }
}
-void pwm_set(unsigned short step)
+void user_boot()
{
- CCPR1L = step * BRIGHT_STEP;
+ dbgpin_high();
+ srand((adc_random() << 8) + adc_random());
+ rs_task();
}
-void delay()
+void user_tasks(unsigned char block)
{
- for (unsigned counter = 0; counter < 50000; counter++);
+ task_id_t tid;
+
+ while ((tid = task_get(block)) >= 0) {
+ switch (tid) {
+ case TASK_BTN_PB: /* pushbutton state change */
+ pb_task();
+ break;
+ case TASK_BTN_RS: /* rocker switch state change */
+ rs_task();
+ break;
+ case TASK_FADE: /* fade timer has fired */
+ fade_task();
+ break;
+ case TASK_INCOLOR: /* in-color timer has fired */
+ start_fade();
+ break;
+ case TASK_TMR32: /* auto on/off event */
+ auto_offon_task();
+ break;
+ }
+ }
}
int main(void)
{
- unsigned short fwd = 1;
- short int step = 0;
- short int led = 0;
-
- pic_init();
- led_init();
- pwm_init();
- while (1) {
- led = 1 - led;
- led_set(led);
- pwm_set(step);
- if (fwd == 0) {
- step--;
- if (step == -1) {
- fwd = 1;
- step++;
- }
- } else /* fwd == 1 */ {
- step++;
- if (step == BRIGHT_STEPS) {
- fwd = 0;
- step--;
- }
- }
- delay(); delay();
- }
- return 0;
+ /* Platform initialization */
+ pic_init();
+ unused_init();
+ btn_init();
+ rgb_init();
+ tmr_init();
+ tmr32_init();
+ task_init();
+ dbgpin_init();
+
+#if 0
+ /* Execute tasks until the queue empties */
+ user_tasks(0);
+#endif
+
+#if 0
+ /* Software initialization */
+#endif
+
+#if 0
+ /* Execute tasks until the queue empties */
+ user_tasks(0);
+#endif
+
+ /* Run user boot code */
+ user_boot();
+
+ /* Process tasks forever */
+ user_tasks(1);
+
+ /* Prevent return from main, which causes a device reset */
+ while (1);
}
+