mirror of
https://codeberg.org/mclemens/ubitxv6.git
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490 lines
25 KiB
C++
490 lines
25 KiB
C++
//
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// This excellent template library is from FastLED http://fastled.io
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//
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// I was considering writing something similar, but FastPin seemed perfect.
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//
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// Thanks FastLED people! Here is the license from FastLED followed by the
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// header
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//
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/*
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The MIT License (MIT)
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Copyright (c) 2013 FastLED
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Permission is hereby granted, free of charge, to any person obtaining a copy of
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this software and associated documentation files (the "Software"), to deal in
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the Software without restriction, including without limitation the rights to
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use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
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the Software, and to permit persons to whom the Software is furnished to do so,
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subject to the following conditions:
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The above copyright notice and this permission notice shall be included in all
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copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
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FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
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COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
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IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
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CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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#ifndef __INC_FASTPIN_H
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#define __INC_FASTPIN_H
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#include<avr/io.h>
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// Arduino.h needed for convinience functions digitalPinToPort/BitMask/portOutputRegister and the pinMode methods.
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#include<Arduino.h>
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#define NO_PIN 255
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// Class to ensure that a minimum amount of time has kicked since the last time run - and delay if not enough time has passed yet
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// this should make sure that chipsets that have
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template<int WAIT> class CMinWait {
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long mLastMicros;
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public:
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CMinWait() { mLastMicros = 0; }
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void wait() {
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long diff = micros() - mLastMicros;
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while(diff < WAIT) {
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diff = micros() - mLastMicros;
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}
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}
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void mark() { mLastMicros = micros(); }
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};
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//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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//
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// Pin access class - needs to tune for various platforms (naive fallback solution?)
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//
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//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
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#define _CYCLES(_PIN) (((_PIN >= 62 ) || (_PIN>=42 && _PIN<=49) || (_PIN>=14 && _PIN <=17) || (_PIN>=6 && _PIN <=9)) ? 2 : 1)
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#else
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#define _CYCLES(_PIN) ((_PIN >= 24) ? 2 : 1)
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#endif
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class Selectable {
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public:
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virtual void select() = 0;
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virtual void release() = 0;
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virtual bool isSelected() = 0;
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};
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class Pin : public Selectable {
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uint8_t mPinMask;
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uint8_t mPin;
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volatile uint8_t *mPort;
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void _init() {
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mPinMask = digitalPinToBitMask(mPin);
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mPort = portOutputRegister(digitalPinToPort(mPin));
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}
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public:
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Pin(int pin) : mPin(pin) { _init(); }
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typedef volatile uint8_t * port_ptr_t;
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typedef uint8_t port_t;
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inline void setOutput() { pinMode(mPin, OUTPUT); }
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inline void setInput() { pinMode(mPin, INPUT); }
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inline void hi() __attribute__ ((always_inline)) { *mPort |= mPinMask; }
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inline void lo() __attribute__ ((always_inline)) { *mPort &= ~mPinMask; }
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inline void strobe() __attribute__ ((always_inline)) { hi(); lo(); }
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inline void hi(register port_ptr_t port) __attribute__ ((always_inline)) { *port |= mPinMask; }
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inline void lo(register port_ptr_t port) __attribute__ ((always_inline)) { *port &= ~mPinMask; }
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inline void set(register port_t val) __attribute__ ((always_inline)) { *mPort = val; }
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inline void fastset(register port_ptr_t port, register port_t val) __attribute__ ((always_inline)) { *port = val; }
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port_t hival() __attribute__ ((always_inline)) { return *mPort | mPinMask; }
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port_t loval() __attribute__ ((always_inline)) { return *mPort & ~mPinMask; }
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port_ptr_t port() __attribute__ ((always_inline)) { return mPort; }
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port_t mask() __attribute__ ((always_inline)) { return mPinMask; }
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virtual void select() { hi(); }
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virtual void release() { lo(); }
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virtual bool isSelected() { return (*mPort & mPinMask) == mPinMask; }
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};
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class OutputPin : public Pin {
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public:
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OutputPin(int pin) : Pin(pin) { setOutput(); }
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};
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class InputPin : public Pin {
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public:
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InputPin(int pin) : Pin(pin) { setInput(); }
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};
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/// The simplest level of Pin class. This relies on runtime functions durinig initialization to get the port/pin mask for the pin. Most
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/// of the accesses involve references to these static globals that get set up. This won't be the fastest set of pin operations, but it
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/// will provide pin level access on pretty much all arduino environments. In addition, it includes some methods to help optimize access in
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/// various ways. Namely, the versions of hi, lo, and fastset that take the port register as a passed in register variable (saving a global
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/// dereference), since these functions are aggressively inlined, that can help collapse out a lot of extraneous memory loads/dereferences.
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///
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/// In addition, if, while writing a bunch of data to a pin, you know no other pins will be getting written to, you can get/cache a value of
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/// the pin's port register and use that to do a full set to the register. This results in one being able to simply do a store to the register,
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/// vs. the load, and/or, and store that would be done normally.
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///
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/// There are platform specific instantiations of this class that provide direct i/o register access to pins for much higher speed pin twiddling.
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///
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/// Note that these classes are all static functions. So the proper usage is Pin<13>::hi(); or such. Instantiating objects is not recommended,
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/// as passing Pin objects around will likely -not- have the effect you're expecting.
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template<uint8_t PIN> class FastPin {
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static uint8_t sPinMask;
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static volatile uint8_t *sPort;
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static void _init() {
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sPinMask = digitalPinToBitMask(PIN);
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sPort = portOutputRegister(digitalPinToPort(PIN));
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}
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public:
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typedef volatile uint8_t * port_ptr_t;
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typedef uint8_t port_t;
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inline static void setOutput() { _init(); pinMode(PIN, OUTPUT); }
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inline static void setInput() { _init(); pinMode(PIN, INPUT); }
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inline static void hi() __attribute__ ((always_inline)) { *sPort |= sPinMask; }
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inline static void lo() __attribute__ ((always_inline)) { *sPort &= ~sPinMask; }
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inline static void strobe() __attribute__ ((always_inline)) { hi(); lo(); }
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inline static void hi(register port_ptr_t port) __attribute__ ((always_inline)) { *port |= sPinMask; }
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inline static void lo(register port_ptr_t port) __attribute__ ((always_inline)) { *port &= ~sPinMask; }
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inline static void set(register port_t val) __attribute__ ((always_inline)) { *sPort = val; }
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inline static void fastset(register port_ptr_t port, register port_t val) __attribute__ ((always_inline)) { *port = val; }
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static port_t hival() __attribute__ ((always_inline)) { return *sPort | sPinMask; }
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static port_t loval() __attribute__ ((always_inline)) { return *sPort & ~sPinMask; }
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static port_ptr_t port() __attribute__ ((always_inline)) { return sPort; }
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static port_t mask() __attribute__ ((always_inline)) { return sPinMask; }
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};
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template<uint8_t PIN> uint8_t FastPin<PIN>::sPinMask;
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template<uint8_t PIN> volatile uint8_t *FastPin<PIN>::sPort;
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/// Class definition for a Pin where we know the port registers at compile time for said pin. This allows us to make
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/// a lot of optimizations, as the inlined hi/lo methods will devolve to a single io register write/bitset.
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template<uint8_t PIN, uint8_t _MASK, typename _PORT, typename _DDR, typename _PIN> class _AVRPIN {
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public:
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typedef volatile uint8_t * port_ptr_t;
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typedef uint8_t port_t;
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inline static void setOutput() { _DDR::r() |= _MASK; }
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inline static void setInput() { _DDR::r() &= ~_MASK; }
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inline static void hi() __attribute__ ((always_inline)) { _PORT::r() |= _MASK; }
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inline static void lo() __attribute__ ((always_inline)) { _PORT::r() &= ~_MASK; }
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inline static void set(register uint8_t val) __attribute__ ((always_inline)) { _PORT::r() = val; }
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inline static void strobe() __attribute__ ((always_inline)) { hi(); lo(); }
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inline static void hi(register port_ptr_t port) __attribute__ ((always_inline)) { hi(); }
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inline static void lo(register port_ptr_t port) __attribute__ ((always_inline)) { lo(); }
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inline static void fastset(register port_ptr_t port, register uint8_t val) __attribute__ ((always_inline)) { set(val); }
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inline static port_t hival() __attribute__ ((always_inline)) { return _PORT::r() | _MASK; }
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inline static port_t loval() __attribute__ ((always_inline)) { return _PORT::r() & ~_MASK; }
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inline static port_ptr_t port() __attribute__ ((always_inline)) { return &_PORT::r(); }
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inline static port_t mask() __attribute__ ((always_inline)) { return _MASK; }
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};
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/// Template definition for teensy 3.0 style ARM pins, providing direct access to the various GPIO registers. Note that this
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/// uses the full port GPIO registers. In theory, in some way, bit-band register access -should- be faster, however I have found
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/// that something about the way gcc does register allocation results in the bit-band code being slower. It will need more fine tuning.
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template<uint8_t PIN, uint32_t _MASK, typename _PDOR, typename _PSOR, typename _PCOR, typename _PTOR, typename _PDIR, typename _PDDR> class _ARMPIN {
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public:
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typedef volatile uint32_t * port_ptr_t;
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typedef uint32_t port_t;
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inline static void setOutput() { pinMode(PIN, OUTPUT); } // TODO: perform MUX config { _PDDR::r() |= _MASK; }
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inline static void setInput() { pinMode(PIN, INPUT); } // TODO: preform MUX config { _PDDR::r() &= ~_MASK; }
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inline static void hi() __attribute__ ((always_inline)) { _PSOR::r() = _MASK; }
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inline static void lo() __attribute__ ((always_inline)) { _PCOR::r() = _MASK; }
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inline static void set(register port_t val) __attribute__ ((always_inline)) { _PDOR::r() = val; }
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inline static void strobe() __attribute__ ((always_inline)) { toggle(); toggle(); }
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inline static void toggle() __attribute__ ((always_inline)) { _PTOR::r() = _MASK; }
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inline static void hi(register port_ptr_t port) __attribute__ ((always_inline)) { hi(); }
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inline static void lo(register port_ptr_t port) __attribute__ ((always_inline)) { lo(); }
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inline static void fastset(register port_ptr_t port, register port_t val) __attribute__ ((always_inline)) { *port = val; }
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inline static port_t hival() __attribute__ ((always_inline)) { return _PDOR::r() | _MASK; }
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inline static port_t loval() __attribute__ ((always_inline)) { return _PDOR::r() & ~_MASK; }
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inline static port_ptr_t port() __attribute__ ((always_inline)) { return &_PDOR::r(); }
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inline static port_t mask() __attribute__ ((always_inline)) { return _MASK; }
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};
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/// Template definition for teensy 3.0 style ARM pins using bit banding, providing direct access to the various GPIO registers. GCC
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/// does a poor job of optimizing around these accesses so they are not being used just yet.
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template<uint8_t PIN, int _BIT, typename _PDOR, typename _PSOR, typename _PCOR, typename _PTOR, typename _PDIR, typename _PDDR> class _ARMPIN_BITBAND {
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public:
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typedef volatile uint32_t * port_ptr_t;
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typedef uint32_t port_t;
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inline static void setOutput() { pinMode(PIN, OUTPUT); } // TODO: perform MUX config { _PDDR::r() |= _MASK; }
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inline static void setInput() { pinMode(PIN, INPUT); } // TODO: preform MUX config { _PDDR::r() &= ~_MASK; }
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inline static void hi() __attribute__ ((always_inline)) { *_PDOR::template rx<_BIT>() = 1; }
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inline static void lo() __attribute__ ((always_inline)) { *_PDOR::template rx<_BIT>() = 0; }
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inline static void set(register port_t val) __attribute__ ((always_inline)) { *_PDOR::template rx<_BIT>() = val; }
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inline static void strobe() __attribute__ ((always_inline)) { toggle(); toggle(); }
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inline static void toggle() __attribute__ ((always_inline)) { *_PTOR::template rx<_BIT>() = 1; }
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inline static void hi(register port_ptr_t port) __attribute__ ((always_inline)) { *port = 1; }
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inline static void lo(register port_ptr_t port) __attribute__ ((always_inline)) { *port = 0; }
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inline static void fastset(register port_ptr_t port, register port_t val) __attribute__ ((always_inline)) { *port = val; }
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inline static port_t hival() __attribute__ ((always_inline)) { return 1; }
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inline static port_t loval() __attribute__ ((always_inline)) { return 0; }
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inline static port_ptr_t port() __attribute__ ((always_inline)) { return _PDOR::template rx<_BIT>(); }
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inline static port_t mask() __attribute__ ((always_inline)) { return 1; }
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};
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/// AVR definitions for pins. Getting around the fact that I can't pass GPIO register addresses in as template arguments by instead creating
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/// a custom type for each GPIO register with a single, static, aggressively inlined function that returns that specific GPIO register. A similar
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/// trick is used a bit further below for the ARM GPIO registers (of which there are far more than on AVR!)
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typedef volatile uint8_t & reg8_t;
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#define _R(T) struct __gen_struct_ ## T
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#define _RD8(T) struct __gen_struct_ ## T { static inline reg8_t r() { return T; }};
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#define _IO(L) _RD8(DDR ## L); _RD8(PORT ## L); _RD8(PIN ## L);
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#define _DEFPIN_AVR(PIN, MASK, L) template<> class FastPin<PIN> : public _AVRPIN<PIN, MASK, _R(PORT ## L), _R(DDR ## L), _R(PIN ## L)> {};
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// ARM definitions
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#define GPIO_BITBAND_ADDR(reg, bit) (((uint32_t)&(reg) - 0x40000000) * 32 + (bit) * 4 + 0x42000000)
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#define GPIO_BITBAND_PTR(reg, bit) ((uint32_t *)GPIO_BITBAND_ADDR((reg), (bit)))
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typedef volatile uint32_t & reg32_t;
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typedef volatile uint32_t * ptr_reg32_t;
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#define _RD32(T) struct __gen_struct_ ## T { static __attribute__((always_inline)) inline reg32_t r() { return T; } \
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template<int BIT> static __attribute__((always_inline)) inline ptr_reg32_t rx() { return GPIO_BITBAND_PTR(T, BIT); } };
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#define _IO32(L) _RD32(GPIO ## L ## _PDOR); _RD32(GPIO ## L ## _PSOR); _RD32(GPIO ## L ## _PCOR); _RD32(GPIO ## L ## _PTOR); _RD32(GPIO ## L ## _PDIR); _RD32(GPIO ## L ## _PDDR);
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#define _DEFPIN_ARM(PIN, BIT, L) template<> class FastPin<PIN> : public _ARMPIN<PIN, 1 << BIT, _R(GPIO ## L ## _PDOR), _R(GPIO ## L ## _PSOR), _R(GPIO ## L ## _PCOR), \
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_R(GPIO ## L ## _PTOR), _R(GPIO ## L ## _PDIR), _R(GPIO ## L ## _PDDR)> {};
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// Don't use bit band'd pins for now, the compiler generates far less efficient code around them
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// #define _DEFPIN_ARM(PIN, BIT, L) template<> class Pin<PIN> : public _ARMPIN_BITBAND<PIN, BIT, _R(GPIO ## L ## _PDOR), _R(GPIO ## L ## _PSOR), _R(GPIO ## L ## _PCOR),
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// _R(GPIO ## L ## _PTOR), _R(GPIO ## L ## _PDIR), _R(GPIO ## L ## _PDDR)> {};
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///////////////////////////////////////////////////////////////////////////////////////////////////////////
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//
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// Pin definitions for AVR and ARM. If there are pin definitions supplied below for the platform being
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// built on, then much higher speed access will be possible, namely with direct GPIO register accesses.
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//
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///////////////////////////////////////////////////////////////////////////////////////////////////////////
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#if defined(FORCE_SOFTWARE_PINS)
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#warning "Softwrae pin support forced pin access will be slightly slower. See fastpin.h for info."
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#define NO_HARDWARE_PIN_SUPPORT
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#elif defined(__AVR_ATtiny85__) || defined(__AVR_ATtiny45__)
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_IO(B);
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_DEFPIN_AVR(0, 0x01, B); _DEFPIN_AVR(1, 0x02, B); _DEFPIN_AVR(2, 0x04, B); _DEFPIN_AVR(3, 0x08, B);
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_DEFPIN_AVR(4, 0x10, B); _DEFPIN_AVR(5, 0x20, B);
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#elif(__AVR_ATtiny24__) || defined(__AVR_ATtiny44__) || defined(__AVR_ATtiny84__) || defined(__AVR_ATtiny25__)
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_IO(A); _IO(B);
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_DEFPIN_AVR(0, 0x01, A); _DEFPIN_AVR(1, 0x02, A); _DEFPIN_AVR(2, 0x04, A); _DEFPIN_AVR(3, 0x08, A);
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_DEFPIN_AVR(4, 0x10, A); _DEFPIN_AVR(5, 0x20, A); _DEFPIN_AVR(6, 0x40, A); _DEFPIN_AVR(7, 0x80, A);
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_DEFPIN_AVR(8, 0x04, B); _DEFPIN_AVR(9, 0x02, B); _DEFPIN_AVR(10, 0x01, B);
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#elif defined(__AVR_ATmega328P__) || defined(__AVR_ATmega168__)
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// Accelerated port definitions for arduino avrs
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_IO(D); _IO(B); _IO(C);
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_DEFPIN_AVR( 0, 0x01, D); _DEFPIN_AVR( 1, 0x02, D); _DEFPIN_AVR( 2, 0x04, D); _DEFPIN_AVR( 3, 0x08, D);
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_DEFPIN_AVR( 4, 0x10, D); _DEFPIN_AVR( 5, 0x20, D); _DEFPIN_AVR( 6, 0x40, D); _DEFPIN_AVR( 7, 0x80, D);
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_DEFPIN_AVR( 8, 0x01, B); _DEFPIN_AVR( 9, 0x02, B); _DEFPIN_AVR(10, 0x04, B); _DEFPIN_AVR(11, 0x08, B);
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_DEFPIN_AVR(12, 0x10, B); _DEFPIN_AVR(13, 0x20, B); _DEFPIN_AVR(14, 0x01, C); _DEFPIN_AVR(15, 0x02, C);
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_DEFPIN_AVR(16, 0x04, C); _DEFPIN_AVR(17, 0x08, C); _DEFPIN_AVR(18, 0x10, C); _DEFPIN_AVR(19, 0x20, C);
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#define SPI_DATA 11
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#define SPI_CLOCK 13
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#define SPI_SELECT 10
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#define AVR_HARDWARE_SPI
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#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
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// megas
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_IO(A); _IO(B); _IO(C); _IO(D); _IO(E); _IO(F); _IO(G); _IO(H); _IO(J); _IO(K); _IO(L);
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_DEFPIN_AVR(0, 1, E); _DEFPIN_AVR(1, 2, E); _DEFPIN_AVR(2, 16, E); _DEFPIN_AVR(3, 32, E);
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_DEFPIN_AVR(4, 32, G); _DEFPIN_AVR(5, 8, E); _DEFPIN_AVR(6, 8, H); _DEFPIN_AVR(7, 16, H);
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_DEFPIN_AVR(8, 32, H); _DEFPIN_AVR(9, 64, H); _DEFPIN_AVR(10, 16, B); _DEFPIN_AVR(11, 32, B);
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_DEFPIN_AVR(12, 64, B); _DEFPIN_AVR(13, 128, B); _DEFPIN_AVR(14, 2, J); _DEFPIN_AVR(15, 1, J);
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_DEFPIN_AVR(16, 2, H); _DEFPIN_AVR(17, 1, H); _DEFPIN_AVR(18, 8, D); _DEFPIN_AVR(19, 4, D);
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_DEFPIN_AVR(20, 2, D); _DEFPIN_AVR(21, 1, D); _DEFPIN_AVR(22, 1, A); _DEFPIN_AVR(23, 2, A);
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_DEFPIN_AVR(24, 4, A); _DEFPIN_AVR(25, 8, A); _DEFPIN_AVR(26, 16, A); _DEFPIN_AVR(27, 32, A);
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_DEFPIN_AVR(28, 64, A); _DEFPIN_AVR(29, 128, A); _DEFPIN_AVR(30, 128, C); _DEFPIN_AVR(31, 64, C);
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_DEFPIN_AVR(32, 32, C); _DEFPIN_AVR(33, 16, C); _DEFPIN_AVR(34, 8, C); _DEFPIN_AVR(35, 4, C);
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_DEFPIN_AVR(36, 2, C); _DEFPIN_AVR(37, 1, C); _DEFPIN_AVR(38, 128, D); _DEFPIN_AVR(39, 4, G);
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_DEFPIN_AVR(40, 2, G); _DEFPIN_AVR(41, 1, G); _DEFPIN_AVR(42, 128, L); _DEFPIN_AVR(43, 64, L);
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_DEFPIN_AVR(44, 32, L); _DEFPIN_AVR(45, 16, L); _DEFPIN_AVR(46, 8, L); _DEFPIN_AVR(47, 4, L);
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_DEFPIN_AVR(48, 2, L); _DEFPIN_AVR(49, 1, L); _DEFPIN_AVR(50, 8, B); _DEFPIN_AVR(51, 4, B);
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_DEFPIN_AVR(52, 2, B); _DEFPIN_AVR(53, 1, B); _DEFPIN_AVR(54, 1, F); _DEFPIN_AVR(55, 2, F);
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_DEFPIN_AVR(56, 4, F); _DEFPIN_AVR(57, 8, F); _DEFPIN_AVR(58, 16, F); _DEFPIN_AVR(59, 32, F);
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_DEFPIN_AVR(60, 64, F); _DEFPIN_AVR(61, 128, F); _DEFPIN_AVR(62, 1, K); _DEFPIN_AVR(63, 2, K);
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_DEFPIN_AVR(64, 4, K); _DEFPIN_AVR(65, 8, K); _DEFPIN_AVR(66, 16, K); _DEFPIN_AVR(67, 32, K);
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_DEFPIN_AVR(68, 64, K); _DEFPIN_AVR(69, 128, K);
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#define SPI_DATA 51
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#define SPI_CLOCK 52
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#define SPI_SELECT 53
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#define AVR_HARDWARE_SPI
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#elif defined(__AVR_ATmega644__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega1284__) || defined(__AVR_ATmega1284P__)
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// Xark: Add ATMega644,644P,1284 and 1284P (using pinout from http://maniacbug.wordpress.com/2011/11/27/arduino-on-atmega1284p-4/)
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_IO(A); _IO(B); _IO(C); _IO(D);
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_DEFPIN_AVR( 0, (1<<0), B); _DEFPIN_AVR( 1, (1<<1), B); _DEFPIN_AVR( 2, (1<<2), B); _DEFPIN_AVR( 3, (1<<3), B);
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_DEFPIN_AVR( 4, (1<<4), B); _DEFPIN_AVR( 5, (1<<5), B); _DEFPIN_AVR( 6, (1<<6), B); _DEFPIN_AVR( 7, (1<<7), B);
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_DEFPIN_AVR( 8, (1<<0), D); _DEFPIN_AVR( 9, (1<<1), D); _DEFPIN_AVR(10, (1<<2), D); _DEFPIN_AVR(11, (1<<3), D);
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_DEFPIN_AVR(12, (1<<4), D); _DEFPIN_AVR(13, (1<<5), D); _DEFPIN_AVR(14, (1<<6), D); _DEFPIN_AVR(15, (1<<7), D);
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_DEFPIN_AVR(16, (1<<0), C); _DEFPIN_AVR(17, (1<<1), C); _DEFPIN_AVR(18, (1<<2), C); _DEFPIN_AVR(19, (1<<3), C);
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_DEFPIN_AVR(20, (1<<4), C); _DEFPIN_AVR(21, (1<<5), C); _DEFPIN_AVR(22, (1<<6), C); _DEFPIN_AVR(23, (1<<7), C);
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_DEFPIN_AVR(24, (1<<0), A); _DEFPIN_AVR(25, (1<<1), A); _DEFPIN_AVR(26, (1<<2), A); _DEFPIN_AVR(27, (1<<3), A);
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_DEFPIN_AVR(28, (1<<4), A); _DEFPIN_AVR(29, (1<<5), A); _DEFPIN_AVR(30, (1<<6), A); _DEFPIN_AVR(31, (1<<7), A);
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#define SPI_DATA 5
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#define SPI_CLOCK 7
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#define SPI_SELECT 4
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#define AVR_HARDWARE_SPI
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// Leonardo, teensy, blinkm
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#elif defined(__AVR_ATmega32U4__) && defined(CORE_TEENSY)
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// Leonardo, teensy, blinkm
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#elif defined(__AVR_ATmega32U4__) && defined(CORE_TEENSY)
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// teensy defs
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_IO(B); _IO(C); _IO(D); _IO(E); _IO(F);
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_DEFPIN_AVR(0, 1, B); _DEFPIN_AVR(1, 2, B); _DEFPIN_AVR(2, 4, B); _DEFPIN_AVR(3, 8, B);
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_DEFPIN_AVR(4, 128, B); _DEFPIN_AVR(5, 1, D); _DEFPIN_AVR(6, 2, D); _DEFPIN_AVR(7, 4, D);
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_DEFPIN_AVR(8, 8, D); _DEFPIN_AVR(9, 64, C); _DEFPIN_AVR(10, 128, C); _DEFPIN_AVR(11, 64, D);
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_DEFPIN_AVR(12, 128, D); _DEFPIN_AVR(13, 16, B); _DEFPIN_AVR(14, 32, B); _DEFPIN_AVR(15, 64, B);
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_DEFPIN_AVR(16, 128, F); _DEFPIN_AVR(17, 64, F); _DEFPIN_AVR(18, 32, F); _DEFPIN_AVR(19, 16, F);
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_DEFPIN_AVR(20, 2, F); _DEFPIN_AVR(21, 1, F); _DEFPIN_AVR(22, 16, D); _DEFPIN_AVR(23, 32, D);
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#define SPI_DATA 2
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#define SPI_CLOCK 1
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#define SPI_SELECT 3
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#define AVR_HARDWARE_SPI
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#elif defined(__AVR_AT90USB646__) || defined(__AVR_AT90USB1286__)
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// teensy++ 2 defs
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_IO(A); _IO(B); _IO(C); _IO(D); _IO(E); _IO(F);
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_DEFPIN_AVR(0, 1, D); _DEFPIN_AVR(1, 2, D); _DEFPIN_AVR(2, 4, D); _DEFPIN_AVR(3, 8, D);
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_DEFPIN_AVR(4, 16, D); _DEFPIN_AVR(5, 32, D); _DEFPIN_AVR(6, 64, D); _DEFPIN_AVR(7, 128, D);
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_DEFPIN_AVR(8, 1, E); _DEFPIN_AVR(9, 2, E); _DEFPIN_AVR(10, 1, C); _DEFPIN_AVR(11, 2, C);
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_DEFPIN_AVR(12, 4, C); _DEFPIN_AVR(13, 8, C); _DEFPIN_AVR(14, 16, C); _DEFPIN_AVR(15, 32, C);
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_DEFPIN_AVR(16, 64, C); _DEFPIN_AVR(17, 128, C); _DEFPIN_AVR(18, 64, E); _DEFPIN_AVR(19, 128, E);
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_DEFPIN_AVR(20, 1, B); _DEFPIN_AVR(21, 2, B); _DEFPIN_AVR(22, 4, B); _DEFPIN_AVR(23, 8, B);
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_DEFPIN_AVR(24, 16, B); _DEFPIN_AVR(25, 32, B); _DEFPIN_AVR(26, 64, B); _DEFPIN_AVR(27, 128, B);
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_DEFPIN_AVR(28, 1, A); _DEFPIN_AVR(29, 2, A); _DEFPIN_AVR(30, 4, A); _DEFPIN_AVR(31, 8, A);
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_DEFPIN_AVR(32, 16, A); _DEFPIN_AVR(33, 32, A); _DEFPIN_AVR(34, 64, A); _DEFPIN_AVR(35, 128, A);
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_DEFPIN_AVR(36, 16, E); _DEFPIN_AVR(37, 32, E); _DEFPIN_AVR(38, 1, F); _DEFPIN_AVR(39, 2, F);
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_DEFPIN_AVR(40, 4, F); _DEFPIN_AVR(41, 8, F); _DEFPIN_AVR(42, 16, F); _DEFPIN_AVR(43, 32, F);
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_DEFPIN_AVR(44, 64, F); _DEFPIN_AVR(45, 128, F);
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#define SPI_DATA 22
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#define SPI_CLOCK 21
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#define SPI_SELECT 20
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#define AVR_HARDWARE_SPI
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|
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#elif defined(__AVR_ATmega32U4__)
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// leonard defs
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_IO(B); _IO(C); _IO(D); _IO(E); _IO(F);
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_DEFPIN_AVR(0, 4, D); _DEFPIN_AVR(1, 8, D); _DEFPIN_AVR(2, 2, D); _DEFPIN_AVR(3, 1, D);
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_DEFPIN_AVR(4, 16, D); _DEFPIN_AVR(5, 64, C); _DEFPIN_AVR(6, 128, D); _DEFPIN_AVR(7, 64, E);
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_DEFPIN_AVR(8, 16, B); _DEFPIN_AVR(9, 32, B); _DEFPIN_AVR(10, 64, B); _DEFPIN_AVR(11, 128, B);
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_DEFPIN_AVR(12, 64, D); _DEFPIN_AVR(13, 128, C); _DEFPIN_AVR(14, 8, B); _DEFPIN_AVR(15, 2, B);
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_DEFPIN_AVR(16, 4, B); _DEFPIN_AVR(17, 1, B); _DEFPIN_AVR(18, 128, F); _DEFPIN_AVR(19, 64, F);
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_DEFPIN_AVR(20, 32, F); _DEFPIN_AVR(21, 16, F); _DEFPIN_AVR(22, 2, F); _DEFPIN_AVR(23, 0, F);
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|
|
#define SPI_DATA 16
|
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#define SPI_CLOCK 15
|
|
#define AVR_HARDWARE_SPI
|
|
|
|
#elif defined(__MK20DX128__) && defined(CORE_TEENSY)
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|
|
|
_IO32(A); _IO32(B); _IO32(C); _IO32(D); _IO32(E);
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|
|
|
_DEFPIN_ARM(0, 16, B); _DEFPIN_ARM(1, 17, B); _DEFPIN_ARM(2, 0, D); _DEFPIN_ARM(3, 12, A);
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|
_DEFPIN_ARM(4, 13, A); _DEFPIN_ARM(5, 7, D); _DEFPIN_ARM(6, 4, D); _DEFPIN_ARM(7, 2, D);
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|
_DEFPIN_ARM(8, 3, D); _DEFPIN_ARM(9, 3, C); _DEFPIN_ARM(10, 4, C); _DEFPIN_ARM(11, 6, C);
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|
_DEFPIN_ARM(12, 7, C); _DEFPIN_ARM(13, 5, C); _DEFPIN_ARM(14, 1, D); _DEFPIN_ARM(15, 0, C);
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|
_DEFPIN_ARM(16, 0, B); _DEFPIN_ARM(17, 1, B); _DEFPIN_ARM(18, 3, B); _DEFPIN_ARM(19, 2, B);
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|
_DEFPIN_ARM(20, 5, D); _DEFPIN_ARM(21, 6, D); _DEFPIN_ARM(22, 1, C); _DEFPIN_ARM(23, 2, C);
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|
_DEFPIN_ARM(24, 5, A); _DEFPIN_ARM(25, 19, B); _DEFPIN_ARM(26, 1, E); _DEFPIN_ARM(27, 9, C);
|
|
_DEFPIN_ARM(28, 8, C); _DEFPIN_ARM(29, 10, C); _DEFPIN_ARM(30, 11, C); _DEFPIN_ARM(31, 0, E);
|
|
_DEFPIN_ARM(32, 18, B); _DEFPIN_ARM(33, 4, A);
|
|
|
|
#define SPI_DATA 11
|
|
#define SPI_CLOCK 13
|
|
#define ARM_HARDWARE_SPI
|
|
|
|
#elif defined(__SAM3X8E__)
|
|
|
|
DUE_IO32(A);
|
|
DUE_IO32(B);
|
|
DUE_IO32(C);
|
|
DUE_IO32(D);
|
|
|
|
_DEFPIN_DUE(0, 8, A); _DEFPIN_DUE(1, 9, A); _DEFPIN_DUE(2, 25, B); _DEFPIN_DUE(3, 28, C);
|
|
_DEFPIN_DUE(4, 26, C); _DEFPIN_DUE(5, 25, C); _DEFPIN_DUE(6, 24, C); _DEFPIN_DUE(7, 23, C);
|
|
_DEFPIN_DUE(8, 22, C); _DEFPIN_DUE(9, 21, C); _DEFPIN_DUE(10, 29, C); _DEFPIN_DUE(11, 7, D);
|
|
_DEFPIN_DUE(12, 8, D); _DEFPIN_DUE(13, 27, B); _DEFPIN_DUE(14, 4, D); _DEFPIN_DUE(15, 5, D);
|
|
_DEFPIN_DUE(16, 13, A); _DEFPIN_DUE(17, 12, A); _DEFPIN_DUE(18, 11, A); _DEFPIN_DUE(19, 10, A);
|
|
_DEFPIN_DUE(20, 12, B); _DEFPIN_DUE(21, 13, B); _DEFPIN_DUE(22, 26, B); _DEFPIN_DUE(23, 14, A);
|
|
_DEFPIN_DUE(24, 15, A); _DEFPIN_DUE(25, 0, D); _DEFPIN_DUE(26, 1, D); _DEFPIN_DUE(27, 2, D);
|
|
_DEFPIN_DUE(28, 3, D); _DEFPIN_DUE(29, 6, D); _DEFPIN_DUE(30, 9, D); _DEFPIN_DUE(31, 7, A);
|
|
_DEFPIN_DUE(32, 10, D); _DEFPIN_DUE(33, 1, C); _DEFPIN_DUE(34, 2, C); _DEFPIN_DUE(35, 3, C);
|
|
_DEFPIN_DUE(36, 4, C); _DEFPIN_DUE(37, 5, C); _DEFPIN_DUE(38, 6, C); _DEFPIN_DUE(39, 7, C);
|
|
_DEFPIN_DUE(40, 8, C); _DEFPIN_DUE(41, 9, C); _DEFPIN_DUE(42, 19, A); _DEFPIN_DUE(43, 20, A);
|
|
_DEFPIN_DUE(44, 19, C); _DEFPIN_DUE(45, 18, C); _DEFPIN_DUE(46, 17, C); _DEFPIN_DUE(47, 16, C);
|
|
_DEFPIN_DUE(48, 15, C); _DEFPIN_DUE(49, 14, C); _DEFPIN_DUE(50, 13, C); _DEFPIN_DUE(51, 12, C);
|
|
_DEFPIN_DUE(52, 21, B); _DEFPIN_DUE(53, 14, B); _DEFPIN_DUE(54, 16, A); _DEFPIN_DUE(55, 24, A);
|
|
_DEFPIN_DUE(56, 23, A); _DEFPIN_DUE(57, 22, A); _DEFPIN_DUE(58, 6, A); _DEFPIN_DUE(59, 4, A);
|
|
_DEFPIN_DUE(60, 3, A); _DEFPIN_DUE(61, 2, A); _DEFPIN_DUE(62, 17, B); _DEFPIN_DUE(63, 18, B);
|
|
_DEFPIN_DUE(64, 19, B); _DEFPIN_DUE(65, 20, B); _DEFPIN_DUE(66, 15, B); _DEFPIN_DUE(67, 16, B);
|
|
_DEFPIN_DUE(68, 1, A); _DEFPIN_DUE(69, 0, A); _DEFPIN_DUE(70, 17, A); _DEFPIN_DUE(71, 18, A);
|
|
_DEFPIN_DUE(72, 30, C); _DEFPIN_DUE(73, 21, A); _DEFPIN_DUE(74, 25, A); _DEFPIN_DUE(75, 26, A);
|
|
_DEFPIN_DUE(76, 27, A); _DEFPIN_DUE(77, 28, A); _DEFPIN_DUE(78, 23, B);
|
|
|
|
#else
|
|
|
|
#warning "No pin/port mappings found, pin access will be slightly slower. See fastpin.h for info."
|
|
#define NO_HARDWARE_PIN_SUPPORT
|
|
|
|
#endif
|
|
|
|
#endif
|