USB_Host_Shield_2.0/avrpins.h
Kristian Lauszus 9460daf941 Check microcontroller type before defining Mega ADK
This allows the users to easily use an ADK and for instance an Uno
without needing to edit avrpins.h every time
2012-06-22 22:41:02 +02:00

666 lines
15 KiB
C++

/* Copyright (C) 2011 Circuits At Home, LTD. All rights reserved.
This software may be distributed and modified under the terms of the GNU
General Public License version 2 (GPL2) as published by the Free Software
Foundation and appearing in the file GPL2.TXT included in the packaging of
this file. Please note that GPL2 Section 2[b] requires that all works based
on this software must also be made publicly available under the terms of
the GPL2 ("Copyleft").
Contact information
-------------------
Circuits At Home, LTD
Web : http://www.circuitsathome.com
e-mail : support@circuitsathome.com
*/
/* derived from Konstantin Chizhov's AVR port templates */
#ifndef _avrpins_h_
#define _avrpins_h_
#if defined(__AVR_ATmega1280__) || (__AVR_ATmega2560__)
/* Uncomment the following if you have Arduino Mega ADK board with MAX3421e built-in */
//#define BOARD_MEGA_ADK
#endif
/* Uncomment the following if you are using a Teensy 2.0 */
//#define BOARD_TEENSY
#include <avr/io.h>
#ifdef PORTA
#define USE_PORTA
#endif
#ifdef PORTB
#define USE_PORTB
#endif
#ifdef PORTC
#define USE_PORTC
#endif
#ifdef PORTD
#define USE_PORTD
#endif
#ifdef PORTE
#define USE_PORTE
#endif
#ifdef PORTF
#define USE_PORTF
#endif
#ifdef PORTG
#define USE_PORTG
#endif
#ifdef PORTH
#define USE_PORTH
#endif
#ifdef PORTJ
#define USE_PORTJ
#endif
#ifdef PORTK
#define USE_PORTK
#endif
#ifdef PORTL
#define USE_PORTL
#endif
#ifdef PORTQ
#define USE_PORTQ
#endif
#ifdef PORTR
#define USE_PORTR
#endif
#ifdef TCCR0A
#define USE_TCCR0A
#endif
#ifdef TCCR1A
#define USE_TCCR1A
#endif
#ifdef TCCR2A
#define USE_TCCR2A
#endif
//Port definitions for AtTiny, AtMega families.
#define MAKE_PORT(portName, ddrName, pinName, className, ID) \
class className{\
public:\
typedef uint8_t DataT;\
public:\
static void Write(DataT value){portName = value;}\
static void ClearAndSet(DataT clearMask, DataT value){portName = (portName & ~clearMask) | value;}\
static DataT Read(){return portName;}\
static void DirWrite(DataT value){ddrName = value;}\
static DataT DirRead(){return ddrName;}\
static void Set(DataT value){portName |= value;}\
static void Clear(DataT value){portName &= ~value;}\
static void Toggle(DataT value){portName ^= value;}\
static void DirSet(DataT value){ddrName |= value;}\
static void DirClear(DataT value){ddrName &= ~value;}\
static void DirToggle(DataT value){ddrName ^= value;}\
static DataT PinRead(){return pinName;}\
enum{Id = ID};\
enum{Width=sizeof(DataT)*8};\
};
// TCCR registers to set/clear Arduino PWM
#define MAKE_TCCR(TccrName, className) \
class className{\
public:\
typedef uint8_t DataT;\
public:\
static void Write(DataT value){TccrName = value;}\
static void ClearAndSet(DataT clearMask, DataT value){TccrName = (TccrName & ~clearMask) | value;}\
static DataT Read(){return TccrName;}\
static void Set(DataT value){TccrName |= value;}\
static void Clear(DataT value){TccrName &= ~value;}\
static void Toggle(DataT value){TccrName ^= value;}\
enum{Width=sizeof(DataT)*8};\
};
#ifdef USE_PORTA
MAKE_PORT(PORTA, DDRA, PINA, Porta, 'A')
#endif
#ifdef USE_PORTB
MAKE_PORT(PORTB, DDRB, PINB, Portb, 'B')
#endif
#ifdef USE_PORTC
MAKE_PORT(PORTC, DDRC, PINC, Portc, 'C')
#endif
#ifdef USE_PORTD
MAKE_PORT(PORTD, DDRD, PIND, Portd, 'D')
#endif
#ifdef USE_PORTE
MAKE_PORT(PORTE, DDRE, PINE, Porte, 'E')
#endif
#ifdef USE_PORTF
MAKE_PORT(PORTF, DDRF, PINF, Portf, 'F')
#endif
#ifdef USE_PORTG
MAKE_PORT(PORTG, DDRG, PING, Portg, 'G')
#endif
#ifdef USE_PORTH
MAKE_PORT(PORTH, DDRH, PINH, Porth, 'H')
#endif
#ifdef USE_PORTJ
MAKE_PORT(PORTJ, DDRJ, PINJ, Portj, 'J')
#endif
#ifdef USE_PORTK
MAKE_PORT(PORTK, DDRK, PINK, Portk, 'K')
#endif
#ifdef USE_PORTL
MAKE_PORT(PORTL, DDRL, PINL, Portl, 'L')
#endif
#ifdef USE_PORTQ
MAKE_PORT(PORTQ, DDRQ, PINQ, Portq, 'Q')
#endif
#ifdef USE_PORTR
MAKE_PORT(PORTR, DDRR, PINR, Portr, 'R')
#endif
#ifdef USE_TCCR0A
MAKE_TCCR(TCCR0A, Tccr0a)
#endif
#ifdef USE_TCCR1A
MAKE_TCCR(TCCR1A, Tccr1a)
#endif
#ifdef USE_TCCR2A
MAKE_TCCR(TCCR2A, Tccr2a)
#endif
// this class represents one pin in a IO port.
// It is fully static.
template<typename PORT, uint8_t PIN>
class TPin
{
// BOOST_STATIC_ASSERT(PIN < PORT::Width);
public:
typedef PORT Port;
enum{Number = PIN};
static void Set() { PORT::Set(1 << PIN); }
static void Set(uint8_t val){
if(val)
Set();
else Clear();}
static void SetDir(uint8_t val){
if(val)
SetDirWrite();
else SetDirRead();}
static void Clear(){PORT::Clear(1 << PIN);}
static void Toggle(){PORT::Toggle(1 << PIN);}
static void SetDirRead(){PORT::DirClear(1 << PIN);}
static void SetDirWrite(){PORT::DirSet(1 << PIN);}
static uint8_t IsSet(){return PORT::PinRead() & (uint8_t)(1 << PIN);}
static void WaiteForSet(){ while(IsSet()==0){} }
static void WaiteForClear(){ while(IsSet()){} }
}; //class TPin...
// this class represents one bit in TCCR port.
// used to set/clear TCCRx bits
// It is fully static.
template<typename TCCR, uint8_t COM>
class TCom
{
// BOOST_STATIC_ASSERT(PIN < PORT::Width);
public:
typedef TCCR Tccr;
enum{Com = COM};
static void Set() { TCCR::Set(1 << COM); }
static void Clear() { TCCR::Clear(1 << COM); }
static void Toggle() { TCCR::Toggle(1 << COM); }
}; //class TCom...
//Short pin definitions
#ifdef USE_PORTA
typedef TPin<Porta, 0> Pa0;
typedef TPin<Porta, 1> Pa1;
typedef TPin<Porta, 2> Pa2;
typedef TPin<Porta, 3> Pa3;
typedef TPin<Porta, 4> Pa4;
typedef TPin<Porta, 5> Pa5;
typedef TPin<Porta, 6> Pa6;
typedef TPin<Porta, 7> Pa7;
#endif
#ifdef USE_PORTB
typedef TPin<Portb, 0> Pb0;
typedef TPin<Portb, 1> Pb1;
typedef TPin<Portb, 2> Pb2;
typedef TPin<Portb, 3> Pb3;
typedef TPin<Portb, 4> Pb4;
typedef TPin<Portb, 5> Pb5;
typedef TPin<Portb, 6> Pb6;
typedef TPin<Portb, 7> Pb7;
#endif
#ifdef USE_PORTC
typedef TPin<Portc, 0> Pc0;
typedef TPin<Portc, 1> Pc1;
typedef TPin<Portc, 2> Pc2;
typedef TPin<Portc, 3> Pc3;
typedef TPin<Portc, 4> Pc4;
typedef TPin<Portc, 5> Pc5;
typedef TPin<Portc, 6> Pc6;
typedef TPin<Portc, 7> Pc7;
#endif
#ifdef USE_PORTD
typedef TPin<Portd, 0> Pd0;
typedef TPin<Portd, 1> Pd1;
typedef TPin<Portd, 2> Pd2;
typedef TPin<Portd, 3> Pd3;
typedef TPin<Portd, 4> Pd4;
typedef TPin<Portd, 5> Pd5;
typedef TPin<Portd, 6> Pd6;
typedef TPin<Portd, 7> Pd7;
#endif
#ifdef USE_PORTE
typedef TPin<Porte, 0> Pe0;
typedef TPin<Porte, 1> Pe1;
typedef TPin<Porte, 2> Pe2;
typedef TPin<Porte, 3> Pe3;
typedef TPin<Porte, 4> Pe4;
typedef TPin<Porte, 5> Pe5;
typedef TPin<Porte, 6> Pe6;
typedef TPin<Porte, 7> Pe7;
#endif
#ifdef USE_PORTF
typedef TPin<Portf, 0> Pf0;
typedef TPin<Portf, 1> Pf1;
typedef TPin<Portf, 2> Pf2;
typedef TPin<Portf, 3> Pf3;
typedef TPin<Portf, 4> Pf4;
typedef TPin<Portf, 5> Pf5;
typedef TPin<Portf, 6> Pf6;
typedef TPin<Portf, 7> Pf7;
#endif
#ifdef USE_PORTG
typedef TPin<Portg, 0> Pg0;
typedef TPin<Portg, 1> Pg1;
typedef TPin<Portg, 2> Pg2;
typedef TPin<Portg, 3> Pg3;
typedef TPin<Portg, 4> Pg4;
typedef TPin<Portg, 5> Pg5;
typedef TPin<Portg, 6> Pg6;
typedef TPin<Portg, 7> Pg7;
#endif
#ifdef USE_PORTH
typedef TPin<Porth, 0> Ph0;
typedef TPin<Porth, 1> Ph1;
typedef TPin<Porth, 2> Ph2;
typedef TPin<Porth, 3> Ph3;
typedef TPin<Porth, 4> Ph4;
typedef TPin<Porth, 5> Ph5;
typedef TPin<Porth, 6> Ph6;
typedef TPin<Porth, 7> Ph7;
#endif
#ifdef USE_PORTJ
typedef TPin<Portj, 0> Pj0;
typedef TPin<Portj, 1> Pj1;
typedef TPin<Portj, 2> Pj2;
typedef TPin<Portj, 3> Pj3;
typedef TPin<Portj, 4> Pj4;
typedef TPin<Portj, 5> Pj5;
typedef TPin<Portj, 6> Pj6;
typedef TPin<Portj, 7> Pj7;
#endif
#ifdef USE_PORTK
typedef TPin<Portk, 0> Pk0;
typedef TPin<Portk, 1> Pk1;
typedef TPin<Portk, 2> Pk2;
typedef TPin<Portk, 3> Pk3;
typedef TPin<Portk, 4> Pk4;
typedef TPin<Portk, 5> Pk5;
typedef TPin<Portk, 6> Pk6;
typedef TPin<Portk, 7> Pk7;
#endif
#ifdef USE_PORTL
typedef TPin<Portl, 0> Pl0;
typedef TPin<Portl, 1> Pl1;
typedef TPin<Portl, 2> Pl2;
typedef TPin<Portl, 3> Pl3;
typedef TPin<Portl, 4> Pl4;
typedef TPin<Portl, 5> Pl5;
typedef TPin<Portl, 6> Pl6;
typedef TPin<Portl, 7> Pl7;
#endif
#ifdef USE_PORTQ
typedef TPin<Portq, 0> Pq0;
typedef TPin<Portq, 1> Pq1;
typedef TPin<Portq, 2> Pq2;
typedef TPin<Portq, 3> Pq3;
typedef TPin<Portq, 4> Pq4;
typedef TPin<Portq, 5> Pq5;
typedef TPin<Portq, 6> Pq6;
typedef TPin<Portq, 7> Pq7;
#endif
#ifdef USE_PORTR
typedef TPin<Portr, 0> Pr0;
typedef TPin<Portr, 1> Pr1;
typedef TPin<Portr, 2> Pr2;
typedef TPin<Portr, 3> Pr3;
typedef TPin<Portr, 4> Pr4;
typedef TPin<Portr, 5> Pr5;
typedef TPin<Portr, 6> Pr6;
typedef TPin<Portr, 7> Pr7;
#endif
#ifdef USE_TCCR0A
typedef TCom<Tccr0a, COM0A1> Tc0a; //P6
typedef TCom<Tccr0a, COM0B1> Tc0b; //P5
#endif
#ifdef USE_TCCR1A
typedef TCom<Tccr1a, COM1A1> Tc1a; //P9
typedef TCom<Tccr1a, COM1B1> Tc1b; //P10
#endif
#ifdef USE_TCCR2A
typedef TCom<Tccr2a, COM2A1> Tc2a; //P11
typedef TCom<Tccr2a, COM2B1> Tc2b; //P3
#endif
template<typename Tp_pin, typename Tc_bit>
class Tp_Tc
{
public:
static void SetDir(uint8_t val){
if(val)
SetDirWrite();
else SetDirRead();
}
static void SetDirRead(){
Tp_pin::SetDirRead(); //set pin direction
Tc_bit::Clear(); //disconnect pin from PWM
}
static void SetDirWrite(){
Tp_pin::SetDirWrite();
Tc_bit::Clear();
}
};
/* pin definitions for cases where it's necessary to clear compare output mode bits */
//typedef Tp_Tc<Pd3, Tc2b> P3; //Arduino pin 3
//typedef Tp_Tc<Pd5, Tc0b> P5; //Arduino pin 5
//typedef Tp_Tc<Pd6, Tc0a> P6; //Arduino pin 6
//typedef Tp_Tc<Pb1, Tc1a> P9; //Arduino pin 9
//typedef Tp_Tc<Pb2, Tc1b> P10; //Arduino pin 10
//typedef Tp_Tc<Pb3, Tc2a> P11; //Arduino pin 11
/* Arduino pin definitions */
#if defined(__AVR_ATmega1280__) || (__AVR_ATmega2560__)
// "Mega" Arduino pin numbers
#define P0 Pe0
#define P1 Pe1
#define P2 Pe4
#define P3 Pe5
#define P4 Pg5
#define P5 Pe5
#define P6 Ph3
#define P7 Ph4
#define P8 Ph5
#define P9 Ph6
#define P10 Pb4
#define P11 Pb5
#define P12 Pb6
#define P13 Pb7
#define P14 Pj1
#define P15 Pj0
#define P16 Ph1
#define P17 Ph0
#define P18 Pd3
#define P19 Pd2
#define P20 Pd1
#define P21 Pd0
#define P22 Pa0
#define P23 Pa1
#define P24 Pa2
#define P25 Pa3
#define P26 Pa4
#define P27 Pa5
#define P28 Pa6
#define P29 Pa7
#define P30 Pc7
#define P31 Pc6
#define P32 Pc5
#define P33 Pc4
#define P34 Pc3
#define P35 Pc2
#define P36 Pc1
#define P37 Pc0
#define P38 Pd7
#define P39 Pg2
#define P40 Pg1
#define P41 Pg0
#define P42 Pl7
#define P43 Pl6
#define P44 Pl5
#define P45 Pl4
#define P46 Pl3
#define P47 Pl2
#define P48 Pl1
#define P49 Pl0
#define P50 Pb3
#define P51 Pb2
#define P52 Pb1
#define P53 Pb0
#define P54 Pe6 // INT on Arduino ADK
#endif //"Mega" pin numbers
#if defined(__AVR_ATmega168__) || defined(__AVR_ATmega328P__)
//"Classic" Arduino pin numbers
#define P0 Pd0
#define P1 Pd1
#define P2 Pd2
#define P3 Pd3
#define P4 Pd4
#define P5 Pd5
#define P6 Pd6
#define P7 Pd7
#define P8 Pb0
#define P9 Pb1
#define P10 Pb2
#define P11 Pb3
#define P12 Pb4
#define P13 Pb5
#define P14 Pc0
#define P15 Pc1
#define P16 Pc2
#define P17 Pc3
#define P18 Pc4
#define P19 Pc5
#endif // "Classic" Arduino pin numbers
#if !defined(BOARD_TEENSY) && defined(__AVR_ATmega32U4__)
// Arduino Leonardo pin numbers
#define P0 Pd2 // D0 - PD2
#define P1 Pd3 // D1 - PD3
#define P2 Pd1 // D2 - PD1
#define P3 Pd0 // D3 - PD0
#define P4 Pd4 // D4 - PD4
#define P5 Pc6 // D5 - PC6
#define P6 Pd7 // D6 - PD7
#define P7 Pe6 // D7 - PE6
#define P8 Pb4 // D8 - PB4
#define P9 Pb5 // D9 - PB5
#define P10 Pb6 // D10 - PB6
#define P11 Pb7 // D11 - PB7
#define P12 Pd6 // D12 - PD6
#define P13 Pc7 // D13 - PC7
#define P14 Pb3 // D14 - MISO - PB3
#define P15 Pb1 // D15 - SCK - PB1
#define P16 Pb2 // D16 - MOSI - PB2
#define P17 Pb0 // D17 - SS - PB0
#define P18 Pf7 // D18 - A0 - PF7
#define P19 Pf6 // D19 - A1 - PF6
#define P20 Pf5 // D20 - A2 - PF5
#define P21 Pf4 // D21 - A3 - PF4
#define P22 Pf1 // D22 - A4 - PF1
#define P23 Pf0 // D23 - A5 - PF0
#define P24 Pd4 // D24 / D4 - A6 - PD4
#define P25 Pd7 // D25 / D6 - A7 - PD7
#define P26 Pb4 // D26 / D8 - A8 - PB4
#define P27 Pb5 // D27 / D9 - A9 - PB5
#define P28 Pb6 // D28 / D10 - A10 - PB6
#define P29 Pd6 // D29 / D12 - A11 - PD6
#endif // Arduino Leonardo pin numbers
#if defined(BOARD_TEENSY) && defined(__AVR_ATmega32U4__)
// Teensy 2.0 pin numbers
// http://www.pjrc.com/teensy/pinout.html
#define P0 Pb0
#define P1 Pb1
#define P2 Pb2
#define P3 Pb3
#define P4 Pb7
#define P5 Pd0
#define P6 Pd1
#define P7 Pd2
#define P8 Pd3
#define P9 Pc6
#define P10 Pc7
#define P11 Pd6
#define P12 Pd7
#define P13 Pb4
#define P14 Pb5
#define P15 Pb6
#define P16 Pf7
#define P17 Pf6
#define P18 Pf5
#define P19 Pf4
#define P20 Pf1
#define P21 Pf0
#define P22 Pd4
#define P23 Pd5
#define P24 Pe6
#endif // Teensy 2.0
#if defined(__AVR_AT90USB646__) || defined(__AVR_AT90USB1286__)
// Teensy++ 2.0 pin numbers
// http://www.pjrc.com/teensy/pinout.html
#define P0 Pd0
#define P1 Pd1
#define P2 Pd2
#define P3 Pd3
#define P4 Pd4
#define P5 Pd5
#define P6 Pd6
#define P7 Pd7
#define P8 Pe0
#define P9 Pe1
#define P10 Pc0
#define P11 Pc1
#define P12 Pc2
#define P13 Pc3
#define P14 Pc4
#define P15 Pc5
#define P16 Pc6
#define P17 Pc7
#define P18 Pe6
#define P19 Pe7
#define P20 Pb0
#define P21 Pb1
#define P22 Pb2
#define P23 Pb3
#define P24 Pb4
#define P25 Pb5
#define P26 Pb6
#define P27 Pb7
#define P28 Pa0
#define P29 Pa1
#define P30 Pa2
#define P31 Pa3
#define P32 Pa4
#define P33 Pa5
#define P34 Pa6
#define P35 Pa7
#define P36 Pe4
#define P37 Pe5
#define P38 Pf0
#define P39 Pf1
#define P40 Pf2
#define P41 Pf3
#define P42 Pf4
#define P43 Pf5
#define P44 Pf6
#define P45 Pf7
#endif // Teensy++ 2.0
#if defined(__AVR_ATmega644__) || defined(__AVR_ATmega644P__)
// Sanguino pin numbers
// http://sanguino.cc/hardware
#define P0 Pb0
#define P1 Pb1
#define P2 Pb2
#define P3 Pb3
#define P4 Pb4
#define P5 Pb5
#define P6 Pb6
#define P7 Pb7
#define P8 Pd0
#define P9 Pd1
#define P10 Pd2
#define P11 Pd3
#define P12 Pd4
#define P13 Pd5
#define P14 Pd6
#define P15 Pd7
#define P16 Pc0
#define P17 Pc1
#define P18 Pc2
#define P19 Pc3
#define P20 Pc4
#define P21 Pc5
#define P22 Pc6
#define P23 Pc7
#define P24 Pa0
#define P25 Pa1
#define P26 Pa2
#define P27 Pa3
#define P28 Pa4
#define P29 Pa5
#define P30 Pa6
#define P31 Pa7
#endif // Sanguino
#endif //_avrpins_h_