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display.c
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display.c
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/*
* IM-Me display functions
*
* Copyright 2010 Dave
* http://daveshacks.blogspot.com/2010/01/im-me-lcd-interface-hacked.html
*
* Copyright 2010 Michael Ossmann
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
#include "types.h"
#include <cc1110.h>
#include <mcs51/8051.h>
#include "ioCCxx10_bitdef.h"
#include "display.h"
#include "bits.h"
#include "5x7.h"
#include <stdio.h>
void sleepMillis(int ms) {
int j;
while (--ms > 0) {
for (j=0; j<1200;j++); // about 1 millisecond
};
}
void xtalClock() { // Set system clock source to 26 Mhz
SLEEP &= ~SLEEP_OSC_PD; // Turn both high speed oscillators on
while( !(SLEEP & SLEEP_XOSC_S) ); // Wait until xtal oscillator is stable
CLKCON = (CLKCON & ~(CLKCON_CLKSPD | CLKCON_OSC)) | CLKSPD_DIV_1; // Select xtal osc, 26 MHz
while (CLKCON & CLKCON_OSC); // Wait for change to take effect
SLEEP |= SLEEP_OSC_PD; // Turn off the other high speed oscillator (the RC osc)
}
void UART_Init()
{
SCON = 0x50; /* configure serial */
TMOD = 0x20; /* configure timer */
TH1 = 0xE6; /* baud rate 1200 */
TL1 = 0xE6; /* baud rate 1200 */
TR1 = 1; /* enable timer */
TI = 1; /* enable transmitting */
RI = 0; /* waiting to receive */
}
void setIOPorts() {
// No need to set PERCFG or P2DIR as default values on reset are fine
P0SEL |= (BIT5 | BIT3 ); // set SCK and MOSI as peripheral outputs
P0DIR |= BIT4 | BIT2; // set SSN and A0 as outputs
P1DIR |= BIT1; // set LCDRst as output
P2DIR = BIT3 | BIT4; // set LEDs as outputs
}
// Set a clock rate of approx. 2.5 Mbps for 26 MHz Xtal clock
#define SPI_BAUD_M 170
#define SPI_BAUD_E 16
void configureSPI() {
U0CSR = 0; //Set SPI Master operation
U0BAUD = SPI_BAUD_M; // set Mantissa
U0GCR = U0GCR_ORDER | SPI_BAUD_E; // set clock on 1st edge, -ve clock polarity, MSB first, and exponent
}
void tx(unsigned char ch) {
#ifndef SIMULATOR
U0DBUF = ch;
while(!(U0CSR & U0CSR_TX_BYTE)); // wait for byte to be transmitted
U0CSR &= ~U0CSR_TX_BYTE; // Clear transmit byte status
#endif
}
void txData(unsigned char ch) {
A0 = HIGH;
tx(ch);
}
void txCtl(unsigned char ch){
A0 = LOW;
tx(ch);
}
void LCDReset(void) {
LCDRst = LOW; // hold down the RESET line to reset the display
sleepMillis(1);
LCDRst = HIGH;
SSN = LOW;
/* initialization sequence from sniffing factory firmware */
txCtl(RESET);
txCtl(SET_REG_RESISTOR);
txCtl(VOLUME_MODE_SET);
txCtl(0x60); /* contrast */
txCtl(DC_DC_CLOCK_SET);
txCtl(0x00); /* fOSC (no division) */
txCtl(POWER_SUPPLY_ON);
txCtl(ADC_REVERSE);
txCtl(DISPLAY_ON);
txCtl(ALL_POINTS_NORMAL);
SSN = HIGH;
}
/* initiate sleep mode */
void LCDPowerSave() {
txCtl(STATIC_INDIC_OFF);
txCtl(DISPLAY_OFF);
txCtl(ALL_POINTS_ON); // Display all Points on cmd = Power Save when following LCD off
}
void setCursor(unsigned char row, unsigned char col) {
txCtl(SET_ROW | (row & 0x0f));
txCtl(SET_COL_LO | (col & 0x0f));
txCtl(SET_COL_HI | ( (col>>4) & 0x0f));
}
void setDisplayStart(unsigned char start) {
txCtl(0x40 | (start & 0x3f)); // set Display start address
}
void setNormalReverse(unsigned char normal) { // 0 = Normal, 1 = Reverse
txCtl(DISPLAY_NORMAL | (normal & 0x01) );
}
/* print inverted string on screen (dark background) */
void printrl(u8 line, char *str)
{
reverseTxt = 1;
printlc(line, 0, str);
reverseTxt = 0;
}
/* print inverted string on screen (dark background)*/
void printrlc(u8 line, u8 col, char *str)
{
reverseTxt = 1;
printlc(line, col, str);
reverseTxt = 0;
}
/* print string on screen */
void printl(u8 line, char *str)
{
printlc(line, 0, str);
}
/* print string on screen */
void printlc(u8 line, u8 col, char *str)
{
#ifdef SIMULATOR
pp(str);
#else
SSN = LOW;
setCursor(line, col * 6);
printf(str);
SSN = HIGH;
#endif
}
/* print string on screen */
/*
void print(u8 line, char *str, ...)
{
va_list argptr;
va_start(argptr, str);
SSN = LOW;
setCursor(line, 0);
vprintf(str, argptr);
SSN = HIGH;
va_end(argptr);
}
*/
/* clear all LCD pixels */
void clear() {
u8 row;
u8 col;
SSN = LOW;
setDisplayStart(0);
/* normal display mode (not inverted) */
setNormalReverse(0);
for (row = 0; row <= 9; row++)
{
setCursor(row, 0);
for (col = 0; col < WIDTH; col++)
txData(0x00);
}
SSN = HIGH;
}
/* sdcc provides printf if we provide this */
void putchar(char c)
{
#ifdef SIMULATOR
while (!TI); /* wait end of last transmission */
TI = 0;
SBUF = c; /* transmit to serial */
#else
u8 i;
c &= 0x7f;
if (c >= FONT_OFFSET)
{
for (i = 0; i < FONT_WIDTH; i++)
txData(font[c - FONT_OFFSET][i] ^ (reverseTxt ? 0xff : 0));
txData(reverseTxt ? 0xff : 0x00);
}
#endif
}