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switch to setup for Arduino Boards Manager

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This commit is contained in:
Erik Tylek Kettenburg
2015-06-23 12:42:35 -07:00
parent bc55c9bb45
commit 6ca6b114d5
3581 changed files with 93 additions and 51 deletions
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206
digistump-sam/libraries/RF24/examples/led_remote/Jamfile Normal file
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PROJECT_NAME = $(PWD:B) ;
PROJECT_DIR = . ;
PROJECT_LIBS = SPI RF24 ;
OUT_DIR = ojam ;
F_CPU = 16000000 ;
MCU = atmega328p ;
PORTS = /dev/tty.usbserial-A600eHIs /dev/tty.usbserial-A40081RP /dev/tty.usbserial-A9007LmI ;
UPLOAD_RATE = 57600 ;
AVRDUDE_PROTOCOL = stk500v1 ;
COM = 33 ;
# Host-specific overrides for locations
if $(OS) = MACOSX
{
ARDUINO_VERSION = 22 ;
OLD_DIR = /opt/arduino-0021 ;
AVR_TOOLS_PATH = $(OLD_DIR)/hardware/tools/avr/bin ;
AVRDUDECONFIG_PATH = $(OLD_DIR)/hardware/tools/avr/etc ;
ARDUINO_DIR = /opt/Arduino ;
ARDUINO_AVR = /usr/lib/avr/include ;
}
# Where is everything?
ARDUINO_VERSION ?= 22 ;
AVR_TOOLS_PATH ?= /usr/bin ;
ARDUINO_DIR ?= /opt/arduino-00$(ARDUINO_VERSION) ;
ARDUINO_AVR ?= $(ARDUINO_DIR)/hardware/tools/avr/avr/include/avr ;
AVRDUDECONFIG_PATH ?= $(ARDUINO_DIR)/hardware/tools ;
ARDUINO_CORE = $(ARDUINO_DIR)/hardware/arduino/cores/arduino ;
ARDUINO_LIB = $(ARDUINO_DIR)/libraries ;
SKETCH_LIB = $(HOME)/Source/Arduino/libraries ;
AVR_CC = $(AVR_TOOLS_PATH)/avr-gcc ;
AVR_CXX = $(AVR_TOOLS_PATH)/avr-g++ ;
AVR_LD = $(AVR_TOOLS_PATH)/avr-gcc ;
AVR_OBJCOPY = $(AVR_TOOLS_PATH)/avr-objcopy ;
AVRDUDE = $(AVR_TOOLS_PATH)/avrdude ;
DEFINES = F_CPU=$(F_CPU)L ARDUINO=$(ARDUINO_VERSION) VERSION_H ;
CTUNING = -ffunction-sections -fdata-sections ;
CXXTUNING = -fno-exceptions -fno-strict-aliasing ;
CFLAGS = -Os -Wall -Wextra -mmcu=$(MCU) $(CTUNING) ;
CXXFLAGS = $(CFLAGS) $(CXXTUNING) ;
LDFLAGS = -Os -lm -Wl,--gc-sections -mmcu=atmega328p ;
# Search everywhere for headers
HDRS = $(PROJECT_DIR) $(ARDUINO_AVR) $(ARDUINO_CORE) [ GLOB $(ARDUINO_LIB) $(SKETCH_LIB) : [^.]* ] ;
# Grab everything from the core directory
CORE_MODULES = [ GLOB $(ARDUINO_CORE) : *.c *.cpp ] ;
# Grab everything from libraries. To avoid this "grab everything" behaviour, you
# can specify specific modules to pick up in PROJECT_MODULES
LIB_MODULES = [ GLOB $(ARDUINO_LIB)/$(PROJECT_LIBS) $(SKETCH_LIB)/$(PROJECT_LIBS) : *.cpp ] ;
# In addition to explicitly-specified program modules, pick up anything from the current
# dir.
PROJECT_MODULES += [ GLOB $(PROJECT_DIR) : *.c *.cpp *.pde ] ;
# Shortcut for the out files
OUT = $(OUT_DIR)/$(PROJECT_NAME) ;
# AvrDude setup
AVRDUDE_FLAGS = -V -F -D -C $(AVRDUDECONFIG_PATH)/avrdude.conf -p $(MCU) -c $(AVRDUDE_PROTOCOL) -b $(UPLOAD_RATE) ;
rule GitVersion
{
Always $(<) ;
Depends all : $(<) ;
}
actions GitVersion
{
echo "const char program_version[] = \"\\" > $(<)
git log -1 --pretty=format:%h >> $(<)
echo "\";" >> $(<)
}
GitVersion version.h ;
rule AvrCc
{
Depends $(<) : $(>) ;
Depends $(<) : $(<:D) ;
Clean clean : $(<) ;
CCHDRS on $(<) = [ on $(<) FIncludes $(HDRS) ] ;
CCDEFS on $(<) = [ on $(<) FDefines $(DEFINES) ] ;
}
actions AvrCc
{
$(AVR_CC) -c -o $(<) $(CCHDRS) $(CCDEFS) $(CFLAGS) $(>)
}
rule AvrC++
{
Depends $(<) : $(>) ;
Depends $(<) : $(<:D) ;
Clean clean : $(<) ;
CCHDRS on $(<) = [ on $(<) FIncludes $(HDRS) ] ;
CCDEFS on $(<) = [ on $(<) FDefines $(DEFINES) ] ;
}
actions AvrC++
{
$(AVR_CXX) -c -o $(<) $(CCHDRS) $(CCDEFS) $(CXXFLAGS) $(>)
}
rule Pde
{
Depends $(<) : $(>) ;
Depends $(<) : $(<:D) ;
Clean clean : $(<) ;
}
actions Pde
{
echo "#include <WProgram.h>" > $(<)
echo "#line 1 \"$(>)\"" >> $(<)
cat $(>) >> $(<)
}
rule AvrPde
{
local _CPP = $(OUT_DIR)/$(_I:B).cpp ;
Pde $(_CPP) : $(>) ;
AvrC++ $(<) : $(_CPP) ;
}
rule AvrObject
{
switch $(>:S)
{
case .c : AvrCc $(<) : $(>) ;
case .cpp : AvrC++ $(<) : $(>) ;
case .pde : AvrPde $(<) : $(>) ;
}
}
rule AvrObjects
{
for _I in $(<)
{
AvrObject $(OUT_DIR)/$(_I:B).o : $(_I) ;
}
}
rule AvrMainFromObjects
{
Depends $(<) : $(>) ;
Depends $(<) : $(<:D) ;
MkDir $(<:D) ;
Depends all : $(<) ;
Clean clean : $(<) ;
}
actions AvrMainFromObjects
{
$(AVR_LD) $(LDFLAGS) -o $(<) $(>)
}
rule AvrMain
{
AvrMainFromObjects $(<) : $(OUT_DIR)/$(>:B).o ;
AvrObjects $(>) ;
}
rule AvrHex
{
Depends $(<) : $(>) ;
Depends $(<) : $(<:D) ;
Depends hex : $(<) ;
Clean clean : $(<) ;
}
actions AvrHex
{
$(AVR_OBJCOPY) -O ihex -R .eeprom $(>) $(<)
}
rule AvrUpload
{
Depends $(1) : $(2) ;
Depends $(2) : $(3) ;
NotFile $(1) ;
Always $(1) ;
Always $(2) ;
AvrUploadAction $(2) : $(3) ;
}
actions AvrUploadAction
{
$(AVRDUDE) $(AVRDUDE_FLAGS) -P $(<) $(AVRDUDE_WRITE_FLASH) -U flash:w:$(>):i
}
AvrMain $(OUT).elf : $(CORE_MODULES) $(LIB_MODULES) $(PROJECT_MODULES) ;
AvrHex $(OUT).hex : $(OUT).elf ;
AvrUpload p6 : /dev/tty.usbserial-A600eHIs : $(OUT).hex ;
AvrUpload p4 : /dev/tty.usbserial-A40081RP : $(OUT).hex ;
AvrUpload p9 : /dev/tty.usbserial-A9007LmI : $(OUT).hex ;

255
digistump-sam/libraries/RF24/examples/led_remote/led_remote.pde Normal file
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/*
Copyright (C) 2011 J. Coliz <maniacbug@ymail.com>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
version 2 as published by the Free Software Foundation.
*/
/**
* Example LED Remote
*
* This is an example of how to use the RF24 class to control a remote
* bank of LED's using buttons on a remote control.
*
* On the 'remote', connect any number of buttons or switches from
* an arduino pin to ground. Update 'button_pins' to reflect the
* pins used.
*
* On the 'led' board, connect the same number of LED's from an
* arduino pin to a resistor to ground. Update 'led_pins' to reflect
* the pins used. Also connect a separate pin to ground and change
* the 'role_pin'. This tells the sketch it's running on the LED board.
*
* Every time the buttons change on the remote, the entire state of
* buttons is send to the led board, which displays the state.
*/
#include <SPI.h>
#include "nRF24L01.h"
#include "RF24.h"
#include "printf.h"
//
// Hardware configuration
//
// Set up nRF24L01 radio on SPI bus plus pins 9 & 10
RF24 radio(53,52);
// sets the role of this unit in hardware. Connect to GND to be the 'led' board receiver
// Leave open to be the 'remote' transmitter
const int role_pin = A4;
// Pins on the remote for buttons
const uint8_t button_pins[] = { 2,3,4,5,6,7 };
const uint8_t num_button_pins = sizeof(button_pins);
// Pins on the LED board for LED's
const uint8_t led_pins[] = { 2,3,4,5,6,7 };
const uint8_t num_led_pins = sizeof(led_pins);
//
// Topology
//
// Single radio pipe address for the 2 nodes to communicate.
const uint64_t pipe = 0xE8E8F0F0E1LL;
//
// Role management
//
// Set up role. This sketch uses the same software for all the nodes in this
// system. Doing so greatly simplifies testing. The hardware itself specifies
// which node it is.
//
// This is done through the role_pin
//
// The various roles supported by this sketch
typedef enum { role_remote = 1, role_led } role_e;
// The debug-friendly names of those roles
const char* role_friendly_name[] = { "invalid", "Remote", "LED Board"};
// The role of the current running sketch
role_e role;
//
// Payload
//
uint8_t button_states[num_button_pins];
uint8_t led_states[num_led_pins];
//
// Setup
//
void setup(void)
{
//
// Role
//
// set up the role pin
pinMode(role_pin, INPUT);
digitalWrite(role_pin,HIGH);
delay(20); // Just to get a solid reading on the role pin
// read the address pin, establish our role
if ( digitalRead(role_pin) )
role = role_remote;
else
role = role_led;
//
// Print preamble
//
Serial.begin(57600);
printf_begin();
printf("\n\rRF24/examples/led_remote/\n\r");
printf("ROLE: %s\n\r",role_friendly_name[role]);
//
// Setup and configure rf radio
//
radio.begin();
//
// Open pipes to other nodes for communication
//
// This simple sketch opens a single pipes for these two nodes to communicate
// back and forth. One listens on it, the other talks to it.
if ( role == role_remote )
{
radio.openWritingPipe(pipe);
}
else
{
radio.openReadingPipe(1,pipe);
}
//
// Start listening
//
if ( role == role_led )
radio.startListening();
//
// Dump the configuration of the rf unit for debugging
//
radio.printDetails();
//
// Set up buttons / LED's
//
// Set pull-up resistors for all buttons
if ( role == role_remote )
{
int i = num_button_pins;
while(i--)
{
pinMode(button_pins[i],INPUT);
digitalWrite(button_pins[i],HIGH);
}
}
// Turn LED's ON until we start getting keys
if ( role == role_led )
{
int i = num_led_pins;
while(i--)
{
pinMode(led_pins[i],OUTPUT);
led_states[i] = HIGH;
digitalWrite(led_pins[i],led_states[i]);
}
}
}
//
// Loop
//
void loop(void)
{
//
// Remote role. If the state of any button has changed, send the whole state of
// all buttons.
//
if ( role == role_remote )
{
// Get the current state of buttons, and
// Test if the current state is different from the last state we sent
int i = num_button_pins;
bool different = false;
while(i--)
{
uint8_t state = ! digitalRead(button_pins[i]);
if ( state != button_states[i] )
{
different = true;
button_states[i] = state;
}
}
// Send the state of the buttons to the LED board
if ( different )
{
printf("Now sending...");
bool ok = radio.write( button_states, num_button_pins );
if (ok)
printf("ok\n\r");
else
printf("failed\n\r");
}
// Try again in a short while
delay(20);
}
//
// LED role. Receive the state of all buttons, and reflect that in the LEDs
//
if ( role == role_led )
{
// if there is data ready
if ( radio.available() )
{
// Dump the payloads until we've gotten everything
bool done = false;
while (!done)
{
// Fetch the payload, and see if this was the last one.
done = radio.read( button_states, num_button_pins );
// Spew it
printf("Got buttons\n\r");
// For each button, if the button now on, then toggle the LED
int i = num_led_pins;
while(i--)
{
if ( button_states[i] )
{
led_states[i] ^= HIGH;
digitalWrite(led_pins[i],led_states[i]);
}
}
}
}
}
}
// vim:ai:cin:sts=2 sw=2 ft=cpp

39
digistump-sam/libraries/RF24/examples/led_remote/printf.h Normal file
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/*
Copyright (C) 2011 J. Coliz <maniacbug@ymail.com>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
version 2 as published by the Free Software Foundation.
*/
/**
* @file printf.h
*
* Setup necessary to direct stdout to the Arduino Serial library, which
* enables 'printf'
*/
#ifndef __PRINTF_H__
#define __PRINTF_H__
#ifdef ARDUINO
int serial_putc( char c, FILE * )
{
Serial.write( c );
return c;
}
void printf_begin(void)
{
#if !defined(__arm__)
fdevopen( &serial_putc, 0 );
#endif
}
#else
#error This example is only for use on Arduino.
#endif // ARDUINO
#endif // __PRINTF_H__