matemat/display/firmware/display.c

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#include <avr/io.h>
#include <util/delay.h>
#include "display.h"
// VFDDB0 PB0
// VFDDB1 PB1
// VFDDB2 PB2
// VFDDB3 PB3
// VFDDB4 PB4
// VFDDB5 PB5
// VFDDB6 PB6
// VFDDB7 PB7
// VFDRS PC5
// VFDRW PC6
// VFDE PC7
// VFDRST (PC4)
// maximum wait time until busy should be deasserted
// bail out if it takes longer than that
// unit: 10us (roughly)
// range: 0..255
#define DISPLAY_WAIT_MAX_10US 100
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void display_init() {
// PC5, PC6, PC7: output (VFD RS, RW, E), RS=0, RW=1, E=1
// PC4: output, active low (VFD RESET), unused in display v2
// PB0..7: output (VFD DB) - can be switched to input (pullup not needed)
PORTB = 0x00;
DDRB = 0xff;
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PORTC |= _BV(PC6) | _BV(PC7);
DDRC |= _BV(PC5) | _BV(PC6) | _BV(PC7);
display_wait_ready();
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_delay_ms(100);
// initialize display: 8 bit, 2 lines, 50% brightness
display_write_ir(0x3c);
display_wait_ready();
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}
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static void display_set_rs(bool on) {
if (on) {
PORTC |= _BV(PC5);
} else {
PORTC &= ~_BV(PC5);
}
}
static void display_set_rw(bool on) {
if (on) {
PORTC |= _BV(PC6);
} else {
PORTC &= ~_BV(PC6);
}
}
static void display_set_e(bool on) {
if (on) {
PORTC |= _BV(PC7);
} else {
PORTC &= ~_BV(PC7);
}
}
static void display_set_reset(bool on) {
if (on) {
PORTC |= _BV(PC4);
} else {
PORTC &= ~_BV(PC4);
}
}
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static void display_set_data(uint8_t data) {
PORTB = data;
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}
static uint8_t display_get_data() {
uint8_t data = PINB;
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return data;
}
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uint8_t display_read_ir() {
// switch PD to input
DDRB = 0x00;
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// E=0 (enable/clock) RS=0 (IR) RW=1 (read)
PORTC = (PORTC & ~(_BV(PC5) | _BV(PC7))) | _BV(PC6);
_delay_us(0.23);
// E=1 (enable/clock)
PORTC |= _BV(PC7);
_delay_us(0.16);
// read inputs
uint8_t data = PINB;
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_delay_us(0.23 - 0.16);
// E=0 (enable/clock)
PORTC &= ~_BV(PC7);
_delay_us(0.01);
// reset to idle / output
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PORTC = _BV(PC6) | _BV(PC7);
DDRB = 0xff;
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return data;
}
uint8_t display_read_dr() {
// switch PD to input
DDRB = 0x00;
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// E=0 (enable/clock) RS=1 (IR) RW=1 (read)
PORTC = (PORTC & ~_BV(PC7)) | (_BV(PC5) | _BV(PC6));
_delay_us(0.23);
// E=1 (enable/clock)
PORTC |= _BV(PC7);
_delay_us(0.16);
// read inputs
uint8_t data = PINB;
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_delay_us(0.23 - 0.16);
// E=0 (enable/clock)
PORTC &= ~_BV(PC7);
_delay_us(0.01);
// reset to idle / output
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PORTC = _BV(PC6) | _BV(PC7);
DDRB = 0xff;
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return data;
}
void display_write_ir(uint8_t data) {
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// RS=0 (IR) RW=0 (write)
display_set_rs(false);
display_set_rw(false);
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_delay_us(0.23);
// E=1 (enable/clock)
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display_set_e(true);
// send data
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display_set_data(data);
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_delay_us(0.23);
// E=0 (enable/clock)
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display_set_e(false);
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_delay_us(0.01);
// reset to idle
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display_set_rs(true);
display_set_rw(true);
display_set_data(0);
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}
void display_write_dr(uint8_t data) {
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// RS=1 (DR) RW=0 (write)
display_set_rs(true);
display_set_rw(false);
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_delay_us(0.23);
// E=1 (enable/clock)
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display_set_e(true);
// send data
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display_set_data(data);
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_delay_us(0.23);
// E=0 (enable/clock)
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display_set_e(false);
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_delay_us(0.01);
// reset to idle
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display_set_rw(true);
display_set_data(0);
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}
bool display_wait_ready() {
// FIXME hack to avoid read mode
_delay_ms(1);
return true;
// FIXME
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// if the busy flag never goes high, we'll run into a deadlock here.
// let's put a deadline on the wait loop.
for (uint8_t i = 0; i < DISPLAY_WAIT_MAX_10US; i++) {
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// read_ir() takes about 500ns
if (display_read_ir() & _BV(7)) return true;
// wait 10us until the next status read
_delay_us(10 - 0.5);
}
return false;
}
void display_write(uint8_t command, const uint8_t *data, uint8_t length) {
if (display_wait_ready()) {
display_write_ir(command);
for (uint8_t i = 0; i < length; i++) {
display_write_dr(data[i]);
}
}
}