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Arduino/build/shared/lib/avrlib/megaio/megaio.c

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/*! \file megaio.c \brief MegaIO Control/Access function library. */
//*****************************************************************************
//
// File Name : 'megaio.c'
// Title : MegaIO Control/Access function library
// Author : Pascal Stang - Copyright (C) 2004
// Created : 5/18/2004
// Revised : 5/18/2004
// Version : 0.1
// Target MCU : Atmel AVR series
// Editor Tabs : 4
//
// This code is distributed under the GNU Public License
// which can be found at http://www.gnu.org/licenses/gpl.txt
//
//*****************************************************************************
#include "buffer.h" // include buffer support
#include "i2c.h" // include I2C functions
#include "megaio/megaioreg.h" // include MegaIO register definitions
#include "megaio.h"
// MegaIO local receive buffer size
#define MEGAIO_UART_RX_BUFFER_SIZE 0x80
// MegaIO local receive buffer data array
static char megaioUartRxData[MEGAIO_UART_RX_BUFFER_SIZE];
// MegaIO local receive buffer
cBuffer megaioUartRxBuffer;
//! initialize the MegaIO interface
u08 megaioInit(void)
{
// initialize the UART receive buffer
bufferInit(&megaioUartRxBuffer, megaioUartRxData, MEGAIO_UART_RX_BUFFER_SIZE);
// initialize i2c interface
i2cInit();
i2cSetBitrate(30);
// check for presence of megaio chip
if( megaioReadReg(MEGAIOREG_IDSTRING, 1) == 'M' )
{
// megaio responded correctly
// initialization succeeded
return TRUE;
}
else
{
// megaio responded incorrectly
// initialization failed
return FALSE;
}
}
//! write an 8-32 bit number to a MegaIO register
void megaioWriteReg(unsigned char regnum, unsigned char nbytes, unsigned long data)
{
u08 packet[5];
// construct I2c data packet
// first byte is register address
// following bytes are the data that will be written to that register
packet[0] = regnum;
packet[1] = data;
packet[2] = data>>8;
packet[3] = data>>16;
packet[4] = data>>24;
// send 2 bytes (register and data) to MegaIO
i2cMasterSend(MEGAIO_I2C_ADDR, 1+nbytes, packet);
}
//! read an 8-32 bit number from a MegaIO register
unsigned long megaioReadReg(unsigned char regnum, unsigned char nbytes)
{
unsigned long data = 0;
// first select the register by writing 1 byte (register)
i2cMasterSend(MEGAIO_I2C_ADDR, 1, &regnum);
// then read n byte(s) from the selected MegaIO register
i2cMasterReceive(MEGAIO_I2C_ADDR, nbytes, (u08*)&data);
// return the results
return data;
}
//! set the baudrate of the megaio serial port
void megaioSetBaudRate(u32 baudrate)
{
megaioWriteReg(MEGAIOREG_UARTBAUD, 4, baudrate);
}
//! send a byte out the megaio serial port
void megaioSendByte(u08 data)
{
megaioWriteReg(MEGAIOREG_UARTDATA, 1, data);
}
//! get a byte from the megaio serial port
int megaioGetByte(void)
{
u08 data;
// check the number of bytes in the megaio receive buffer
if( megaioReadReg(MEGAIOREG_UARTRXBUFBYTES, 1) )
{
// one or more bytes are available
// get first byte
data = megaioReadReg(MEGAIOREG_UARTDATA, 1);
return data;
}
else
{
// no bytes were available
// (no bytes have arrived and are waiting to be read)
return -1;
}
}
//! returns the receive buffer structure
cBuffer* megaioGetRxBuffer(void)
{
u08 nbytes;
// get the number of bytes waiting in the MegaIO buffer
nbytes = megaioReadReg(MEGAIOREG_UARTRXBUFBYTES, 1);
// get all available bytes from the MegaIO chip
// and add them to the receive buffer
while(megaioReadReg(MEGAIOREG_UARTRXBUFBYTES, 1))
{
bufferAddToEnd(&megaioUartRxBuffer, megaioReadReg(MEGAIOREG_UARTDATA, 1));
nbytes--;
}
// return rx buffer pointer
return &megaioUartRxBuffer;
}
//! turn on megaio PWM and set for bitRes resolution
void megaioPWMInit(u08 bitRes)
{
megaioWriteReg(MEGAIOREG_PWM1CTRL, 1, bitRes);
}
//! turn off megaio PWM
void megaioPWMOff(void)
{
megaioWriteReg(MEGAIOREG_PWM1CTRL, 1, 0);
}
//! set megaio PWM1A duty cycle
void megaioPWMASet(u16 pwmDuty)
{
megaioWriteReg(MEGAIOREG_PWM1ADUTY, 2, pwmDuty);
}
//! set megaio PWM1B duty cycle
void megaioPWMBSet(u16 pwmDuty)
{
megaioWriteReg(MEGAIOREG_PWM1BDUTY, 2, pwmDuty);
}
//! set megaio prescaler division rate
void megaioSetPrescaler(u08 prescaleDiv)
{
megaioWriteReg(MEGAIOREG_PWM1FREQ, 1, prescaleDiv);
}
//! do A/D conversion on channel [ch] and return result
u16 megaioA2DConvert(u08 ch)
{
// set channel
megaioWriteReg(MEGAIOREG_ADCCHSEL, 1, ch);
// start single conversion
megaioWriteReg(MEGAIOREG_ADCCTRL, 1, 0x01);
// wait for conversion to be complete
while( megaioReadReg(MEGAIOREG_ADCCTRL, 1) );
// get result and return it
return megaioReadReg(MEGAIOREG_ADCRESULT, 2);
}