diff options
| author | per1234 <accounts@perglass.com> | 2020-09-07 14:18:20 +0300 |
|---|---|---|
| committer | per1234 <accounts@perglass.com> | 2020-09-07 14:52:40 +0300 |
| commit | 99d31141685883456aa7008cc85a599dd0a6e0d3 (patch) | |
| tree | 520a9ac02a8a8e3c3f0e12349e6bbaa774071997 /build | |
| parent | 5e30bec235f83db47cc14de340ce4d8792ed8bff (diff) | |
Move built-in examples to dedicated repository
A dedicated repository for the examples will make it easier for them to be built in to arbitrary development tools. It will make it easier to use them for compilation testing of boards platforms. It provides a dedicated location for issue reports and pull requests that are specific to the examples. It continues the work done by moving the AVR and SAM boards platforms and built-in libraries towards making the arduino/Arduino repository solely a place to host the GUI code of the Arduino IDE.
Diffstat (limited to 'build')
235 files changed, 31 insertions, 6727 deletions
diff --git a/build/arduino-examples-1.9.0.zip.sha b/build/arduino-examples-1.9.0.zip.sha new file mode 100644 index 000000000..1e8228b9e --- /dev/null +++ b/build/arduino-examples-1.9.0.zip.sha @@ -0,0 +1 @@ +22e2a43d7a4eea5f99998a397b0094f505806642 diff --git a/build/build.xml b/build/build.xml index 93b1b29a3..add0668dd 100644 --- a/build/build.xml +++ b/build/build.xml @@ -105,6 +105,8 @@ <property name="AVRDUDE-VERSION" value="6.3.0-arduino17" /> <property name="AVRCORE-VERSION" value="1.8.3" /> <property name="arduinoOTA-VERSION" value="1.3.0" /> + <!-- https://github.com/arduino/built-in-examples --> + <property name="BUILT-IN-EXAMPLES-VERSION" value="1.9.0" /> <!-- Libraries required for running arduino --> <fileset dir=".." id="runtime.jars"> @@ -209,10 +211,7 @@ <antcall target="assemble-hardware" /> - <!-- copy shared examples folder --> - <copy todir="${target.path}/examples"> - <fileset dir="shared/examples" /> - </copy> + <antcall target="assemble-examples" /> <mkdir dir="${target.path}/reference"/> @@ -232,6 +231,27 @@ </antcall> </target> + <target name="assemble-examples"> + <!-- Add the built-in example sketches --> + <property name="BUILT-IN-EXAMPLES-REPOSITORY-OWNER" value="arduino" /> + <property name="BUILT-IN-EXAMPLES-REPOSITORY-NAME" value="arduino-examples" /> + <property name="BUILT-IN-EXAMPLES-STAGING-PATH" value="shared" /> + <property name="BUILT-IN-EXAMPLES-FINAL-PATH" value="${target.path}/examples" /> + + <!-- Download built-in examples from repository --> + <antcall target="unzip"> + <param name="archive_file" value="${BUILT-IN-EXAMPLES-REPOSITORY-NAME}-${BUILT-IN-EXAMPLES-VERSION}.zip" /> + <param name="archive_url" value="https://github.com/${BUILT-IN-EXAMPLES-REPOSITORY-OWNER}/${BUILT-IN-EXAMPLES-REPOSITORY-NAME}/archive/${BUILT-IN-EXAMPLES-VERSION}.zip" /> + <param name="final_folder" value="${BUILT-IN-EXAMPLES-FINAL-PATH}" /> + <param name="dest_folder" value="${BUILT-IN-EXAMPLES-STAGING-PATH}" /> + </antcall> + + <!-- Copy examples from subfolder of the downloaded repository --> + <copy todir="${BUILT-IN-EXAMPLES-FINAL-PATH}"> + <fileset dir="${BUILT-IN-EXAMPLES-STAGING-PATH}/${BUILT-IN-EXAMPLES-REPOSITORY-NAME}-${BUILT-IN-EXAMPLES-VERSION}/examples" /> + </copy> + </target> + <target name="assemble-docs" unless="no_docs"> <!-- Unzip documentation --> <antcall target="unzip"> diff --git a/build/shared/examples/01.Basics/AnalogReadSerial/AnalogReadSerial.ino b/build/shared/examples/01.Basics/AnalogReadSerial/AnalogReadSerial.ino deleted file mode 100644 index 789785dcc..000000000 --- a/build/shared/examples/01.Basics/AnalogReadSerial/AnalogReadSerial.ino +++ /dev/null @@ -1,26 +0,0 @@ -/* - AnalogReadSerial - - Reads an analog input on pin 0, prints the result to the Serial Monitor. - Graphical representation is available using Serial Plotter (Tools > Serial Plotter menu). - Attach the center pin of a potentiometer to pin A0, and the outside pins to +5V and ground. - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/AnalogReadSerial -*/ - -// the setup routine runs once when you press reset: -void setup() { - // initialize serial communication at 9600 bits per second: - Serial.begin(9600); -} - -// the loop routine runs over and over again forever: -void loop() { - // read the input on analog pin 0: - int sensorValue = analogRead(A0); - // print out the value you read: - Serial.println(sensorValue); - delay(1); // delay in between reads for stability -} diff --git a/build/shared/examples/01.Basics/AnalogReadSerial/AnalogReadSerial.txt b/build/shared/examples/01.Basics/AnalogReadSerial/AnalogReadSerial.txt deleted file mode 100644 index 95a731d56..000000000 --- a/build/shared/examples/01.Basics/AnalogReadSerial/AnalogReadSerial.txt +++ /dev/null @@ -1 +0,0 @@ -Read a potentiometer, print its state out to the Arduino Serial Monitor.
\ No newline at end of file diff --git a/build/shared/examples/01.Basics/AnalogReadSerial/layout.png b/build/shared/examples/01.Basics/AnalogReadSerial/layout.png Binary files differdeleted file mode 100644 index 89df38dc0..000000000 --- a/build/shared/examples/01.Basics/AnalogReadSerial/layout.png +++ /dev/null diff --git a/build/shared/examples/01.Basics/AnalogReadSerial/schematic.png b/build/shared/examples/01.Basics/AnalogReadSerial/schematic.png Binary files differdeleted file mode 100644 index 2529acd32..000000000 --- a/build/shared/examples/01.Basics/AnalogReadSerial/schematic.png +++ /dev/null diff --git a/build/shared/examples/01.Basics/BareMinimum/BareMinimum.ino b/build/shared/examples/01.Basics/BareMinimum/BareMinimum.ino deleted file mode 100644 index 95c2b6eb0..000000000 --- a/build/shared/examples/01.Basics/BareMinimum/BareMinimum.ino +++ /dev/null @@ -1,9 +0,0 @@ -void setup() { - // put your setup code here, to run once: - -} - -void loop() { - // put your main code here, to run repeatedly: - -} diff --git a/build/shared/examples/01.Basics/BareMinimum/BareMinimum.txt b/build/shared/examples/01.Basics/BareMinimum/BareMinimum.txt deleted file mode 100644 index 522b5cd5e..000000000 --- a/build/shared/examples/01.Basics/BareMinimum/BareMinimum.txt +++ /dev/null @@ -1 +0,0 @@ -The bare minimum of code needed to start an Arduino sketch.
\ No newline at end of file diff --git a/build/shared/examples/01.Basics/Blink/Blink.ino b/build/shared/examples/01.Basics/Blink/Blink.ino deleted file mode 100644 index b73772542..000000000 --- a/build/shared/examples/01.Basics/Blink/Blink.ino +++ /dev/null @@ -1,37 +0,0 @@ -/* - Blink - - Turns an LED on for one second, then off for one second, repeatedly. - - Most Arduinos have an on-board LED you can control. On the UNO, MEGA and ZERO - it is attached to digital pin 13, on MKR1000 on pin 6. LED_BUILTIN is set to - the correct LED pin independent of which board is used. - If you want to know what pin the on-board LED is connected to on your Arduino - model, check the Technical Specs of your board at: - https://www.arduino.cc/en/Main/Products - - modified 8 May 2014 - by Scott Fitzgerald - modified 2 Sep 2016 - by Arturo Guadalupi - modified 8 Sep 2016 - by Colby Newman - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Blink -*/ - -// the setup function runs once when you press reset or power the board -void setup() { - // initialize digital pin LED_BUILTIN as an output. - pinMode(LED_BUILTIN, OUTPUT); -} - -// the loop function runs over and over again forever -void loop() { - digitalWrite(LED_BUILTIN, HIGH); // turn the LED on (HIGH is the voltage level) - delay(1000); // wait for a second - digitalWrite(LED_BUILTIN, LOW); // turn the LED off by making the voltage LOW - delay(1000); // wait for a second -} diff --git a/build/shared/examples/01.Basics/Blink/Blink.txt b/build/shared/examples/01.Basics/Blink/Blink.txt deleted file mode 100644 index 06263345d..000000000 --- a/build/shared/examples/01.Basics/Blink/Blink.txt +++ /dev/null @@ -1 +0,0 @@ -Turn an LED on and off.
\ No newline at end of file diff --git a/build/shared/examples/01.Basics/DigitalReadSerial/DigitalReadSerial.ino b/build/shared/examples/01.Basics/DigitalReadSerial/DigitalReadSerial.ino deleted file mode 100644 index b3040af4e..000000000 --- a/build/shared/examples/01.Basics/DigitalReadSerial/DigitalReadSerial.ino +++ /dev/null @@ -1,29 +0,0 @@ -/* - DigitalReadSerial - - Reads a digital input on pin 2, prints the result to the Serial Monitor - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/DigitalReadSerial -*/ - -// digital pin 2 has a pushbutton attached to it. Give it a name: -int pushButton = 2; - -// the setup routine runs once when you press reset: -void setup() { - // initialize serial communication at 9600 bits per second: - Serial.begin(9600); - // make the pushbutton's pin an input: - pinMode(pushButton, INPUT); -} - -// the loop routine runs over and over again forever: -void loop() { - // read the input pin: - int buttonState = digitalRead(pushButton); - // print out the state of the button: - Serial.println(buttonState); - delay(1); // delay in between reads for stability -} diff --git a/build/shared/examples/01.Basics/DigitalReadSerial/DigitalReadSerial.txt b/build/shared/examples/01.Basics/DigitalReadSerial/DigitalReadSerial.txt deleted file mode 100644 index a330ffe01..000000000 --- a/build/shared/examples/01.Basics/DigitalReadSerial/DigitalReadSerial.txt +++ /dev/null @@ -1 +0,0 @@ -Read a switch, print the state out to the Arduino Serial Monitor.
\ No newline at end of file diff --git a/build/shared/examples/01.Basics/DigitalReadSerial/layout.png b/build/shared/examples/01.Basics/DigitalReadSerial/layout.png Binary files differdeleted file mode 100644 index 1a312f2f0..000000000 --- a/build/shared/examples/01.Basics/DigitalReadSerial/layout.png +++ /dev/null diff --git a/build/shared/examples/01.Basics/DigitalReadSerial/schematic.png b/build/shared/examples/01.Basics/DigitalReadSerial/schematic.png Binary files differdeleted file mode 100644 index 3d05fe903..000000000 --- a/build/shared/examples/01.Basics/DigitalReadSerial/schematic.png +++ /dev/null diff --git a/build/shared/examples/01.Basics/Fade/Fade.ino b/build/shared/examples/01.Basics/Fade/Fade.ino deleted file mode 100644 index 744dc4277..000000000 --- a/build/shared/examples/01.Basics/Fade/Fade.ino +++ /dev/null @@ -1,40 +0,0 @@ -/* - Fade - - This example shows how to fade an LED on pin 9 using the analogWrite() - function. - - The analogWrite() function uses PWM, so if you want to change the pin you're - using, be sure to use another PWM capable pin. On most Arduino, the PWM pins - are identified with a "~" sign, like ~3, ~5, ~6, ~9, ~10 and ~11. - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Fade -*/ - -int led = 9; // the PWM pin the LED is attached to -int brightness = 0; // how bright the LED is -int fadeAmount = 5; // how many points to fade the LED by - -// the setup routine runs once when you press reset: -void setup() { - // declare pin 9 to be an output: - pinMode(led, OUTPUT); -} - -// the loop routine runs over and over again forever: -void loop() { - // set the brightness of pin 9: - analogWrite(led, brightness); - - // change the brightness for next time through the loop: - brightness = brightness + fadeAmount; - - // reverse the direction of the fading at the ends of the fade: - if (brightness <= 0 || brightness >= 255) { - fadeAmount = -fadeAmount; - } - // wait for 30 milliseconds to see the dimming effect - delay(30); -} diff --git a/build/shared/examples/01.Basics/Fade/Fade.txt b/build/shared/examples/01.Basics/Fade/Fade.txt deleted file mode 100644 index d196b43fa..000000000 --- a/build/shared/examples/01.Basics/Fade/Fade.txt +++ /dev/null @@ -1 +0,0 @@ -Demonstrates the use of analogWrite() to fade an LED.
\ No newline at end of file diff --git a/build/shared/examples/01.Basics/Fade/layout.png b/build/shared/examples/01.Basics/Fade/layout.png Binary files differdeleted file mode 100644 index 5a6db3e35..000000000 --- a/build/shared/examples/01.Basics/Fade/layout.png +++ /dev/null diff --git a/build/shared/examples/01.Basics/Fade/schematic.png b/build/shared/examples/01.Basics/Fade/schematic.png Binary files differdeleted file mode 100644 index 6dd229492..000000000 --- a/build/shared/examples/01.Basics/Fade/schematic.png +++ /dev/null diff --git a/build/shared/examples/01.Basics/ReadAnalogVoltage/ReadAnalogVoltage.ino b/build/shared/examples/01.Basics/ReadAnalogVoltage/ReadAnalogVoltage.ino deleted file mode 100644 index 4473b4e18..000000000 --- a/build/shared/examples/01.Basics/ReadAnalogVoltage/ReadAnalogVoltage.ino +++ /dev/null @@ -1,27 +0,0 @@ -/* - ReadAnalogVoltage - - Reads an analog input on pin 0, converts it to voltage, and prints the result to the Serial Monitor. - Graphical representation is available using Serial Plotter (Tools > Serial Plotter menu). - Attach the center pin of a potentiometer to pin A0, and the outside pins to +5V and ground. - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/ReadAnalogVoltage -*/ - -// the setup routine runs once when you press reset: -void setup() { - // initialize serial communication at 9600 bits per second: - Serial.begin(9600); -} - -// the loop routine runs over and over again forever: -void loop() { - // read the input on analog pin 0: - int sensorValue = analogRead(A0); - // Convert the analog reading (which goes from 0 - 1023) to a voltage (0 - 5V): - float voltage = sensorValue * (5.0 / 1023.0); - // print out the value you read: - Serial.println(voltage); -} diff --git a/build/shared/examples/01.Basics/ReadAnalogVoltage/ReadAnalogVoltage.txt b/build/shared/examples/01.Basics/ReadAnalogVoltage/ReadAnalogVoltage.txt deleted file mode 100644 index d4838d5dc..000000000 --- a/build/shared/examples/01.Basics/ReadAnalogVoltage/ReadAnalogVoltage.txt +++ /dev/null @@ -1 +0,0 @@ -Reads an analog input and prints the voltage to the Serial Monitor.
\ No newline at end of file diff --git a/build/shared/examples/01.Basics/ReadAnalogVoltage/layout.png b/build/shared/examples/01.Basics/ReadAnalogVoltage/layout.png Binary files differdeleted file mode 100644 index 89df38dc0..000000000 --- a/build/shared/examples/01.Basics/ReadAnalogVoltage/layout.png +++ /dev/null diff --git a/build/shared/examples/01.Basics/ReadAnalogVoltage/schematic.png b/build/shared/examples/01.Basics/ReadAnalogVoltage/schematic.png Binary files differdeleted file mode 100644 index 2529acd32..000000000 --- a/build/shared/examples/01.Basics/ReadAnalogVoltage/schematic.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/BlinkWithoutDelay/BlinkWithoutDelay.ino b/build/shared/examples/02.Digital/BlinkWithoutDelay/BlinkWithoutDelay.ino deleted file mode 100644 index c96f3baed..000000000 --- a/build/shared/examples/02.Digital/BlinkWithoutDelay/BlinkWithoutDelay.ino +++ /dev/null @@ -1,71 +0,0 @@ -/* - Blink without Delay - - Turns on and off a light emitting diode (LED) connected to a digital pin, - without using the delay() function. This means that other code can run at the - same time without being interrupted by the LED code. - - The circuit: - - Use the onboard LED. - - Note: Most Arduinos have an on-board LED you can control. On the UNO, MEGA - and ZERO it is attached to digital pin 13, on MKR1000 on pin 6. LED_BUILTIN - is set to the correct LED pin independent of which board is used. - If you want to know what pin the on-board LED is connected to on your - Arduino model, check the Technical Specs of your board at: - https://www.arduino.cc/en/Main/Products - - created 2005 - by David A. Mellis - modified 8 Feb 2010 - by Paul Stoffregen - modified 11 Nov 2013 - by Scott Fitzgerald - modified 9 Jan 2017 - by Arturo Guadalupi - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/BlinkWithoutDelay -*/ - -// constants won't change. Used here to set a pin number: -const int ledPin = LED_BUILTIN;// the number of the LED pin - -// Variables will change: -int ledState = LOW; // ledState used to set the LED - -// Generally, you should use "unsigned long" for variables that hold time -// The value will quickly become too large for an int to store -unsigned long previousMillis = 0; // will store last time LED was updated - -// constants won't change: -const long interval = 1000; // interval at which to blink (milliseconds) - -void setup() { - // set the digital pin as output: - pinMode(ledPin, OUTPUT); -} - -void loop() { - // here is where you'd put code that needs to be running all the time. - - // check to see if it's time to blink the LED; that is, if the difference - // between the current time and last time you blinked the LED is bigger than - // the interval at which you want to blink the LED. - unsigned long currentMillis = millis(); - - if (currentMillis - previousMillis >= interval) { - // save the last time you blinked the LED - previousMillis = currentMillis; - - // if the LED is off turn it on and vice-versa: - if (ledState == LOW) { - ledState = HIGH; - } else { - ledState = LOW; - } - - // set the LED with the ledState of the variable: - digitalWrite(ledPin, ledState); - } -} diff --git a/build/shared/examples/02.Digital/BlinkWithoutDelay/BlinkWithoutDelay.txt b/build/shared/examples/02.Digital/BlinkWithoutDelay/BlinkWithoutDelay.txt deleted file mode 100644 index 569c6b6e3..000000000 --- a/build/shared/examples/02.Digital/BlinkWithoutDelay/BlinkWithoutDelay.txt +++ /dev/null @@ -1 +0,0 @@ -Blinking an LED without using the delay() function.
\ No newline at end of file diff --git a/build/shared/examples/02.Digital/BlinkWithoutDelay/layout.png b/build/shared/examples/02.Digital/BlinkWithoutDelay/layout.png Binary files differdeleted file mode 100644 index b35c5436a..000000000 --- a/build/shared/examples/02.Digital/BlinkWithoutDelay/layout.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/BlinkWithoutDelay/schematic.png b/build/shared/examples/02.Digital/BlinkWithoutDelay/schematic.png Binary files differdeleted file mode 100644 index ad7848d19..000000000 --- a/build/shared/examples/02.Digital/BlinkWithoutDelay/schematic.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/Button/Button.ino b/build/shared/examples/02.Digital/Button/Button.ino deleted file mode 100644 index 06cb35189..000000000 --- a/build/shared/examples/02.Digital/Button/Button.ino +++ /dev/null @@ -1,51 +0,0 @@ -/* - Button - - Turns on and off a light emitting diode(LED) connected to digital pin 13, - when pressing a pushbutton attached to pin 2. - - The circuit: - - LED attached from pin 13 to ground - - pushbutton attached to pin 2 from +5V - - 10K resistor attached to pin 2 from ground - - - Note: on most Arduinos there is already an LED on the board - attached to pin 13. - - created 2005 - by DojoDave <http://www.0j0.org> - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Button -*/ - -// constants won't change. They're used here to set pin numbers: -const int buttonPin = 2; // the number of the pushbutton pin -const int ledPin = 13; // the number of the LED pin - -// variables will change: -int buttonState = 0; // variable for reading the pushbutton status - -void setup() { - // initialize the LED pin as an output: - pinMode(ledPin, OUTPUT); - // initialize the pushbutton pin as an input: - pinMode(buttonPin, INPUT); -} - -void loop() { - // read the state of the pushbutton value: - buttonState = digitalRead(buttonPin); - - // check if the pushbutton is pressed. If it is, the buttonState is HIGH: - if (buttonState == HIGH) { - // turn LED on: - digitalWrite(ledPin, HIGH); - } else { - // turn LED off: - digitalWrite(ledPin, LOW); - } -} diff --git a/build/shared/examples/02.Digital/Button/Button.txt b/build/shared/examples/02.Digital/Button/Button.txt deleted file mode 100644 index c5b3123b5..000000000 --- a/build/shared/examples/02.Digital/Button/Button.txt +++ /dev/null @@ -1 +0,0 @@ -Use a pushbutton to control an LED.
\ No newline at end of file diff --git a/build/shared/examples/02.Digital/Button/layout.png b/build/shared/examples/02.Digital/Button/layout.png Binary files differdeleted file mode 100644 index 1a312f2f0..000000000 --- a/build/shared/examples/02.Digital/Button/layout.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/Button/schematic.png b/build/shared/examples/02.Digital/Button/schematic.png Binary files differdeleted file mode 100644 index 12964ff98..000000000 --- a/build/shared/examples/02.Digital/Button/schematic.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/Debounce/Debounce.ino b/build/shared/examples/02.Digital/Debounce/Debounce.ino deleted file mode 100644 index d5d48c918..000000000 --- a/build/shared/examples/02.Digital/Debounce/Debounce.ino +++ /dev/null @@ -1,86 +0,0 @@ -/* - Debounce - - Each time the input pin goes from LOW to HIGH (e.g. because of a push-button - press), the output pin is toggled from LOW to HIGH or HIGH to LOW. There's a - minimum delay between toggles to debounce the circuit (i.e. to ignore noise). - - The circuit: - - LED attached from pin 13 to ground - - pushbutton attached from pin 2 to +5V - - 10 kilohm resistor attached from pin 2 to ground - - - Note: On most Arduino boards, there is already an LED on the board connected - to pin 13, so you don't need any extra components for this example. - - created 21 Nov 2006 - by David A. Mellis - modified 30 Aug 2011 - by Limor Fried - modified 28 Dec 2012 - by Mike Walters - modified 30 Aug 2016 - by Arturo Guadalupi - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Debounce -*/ - -// constants won't change. They're used here to set pin numbers: -const int buttonPin = 2; // the number of the pushbutton pin -const int ledPin = 13; // the number of the LED pin - -// Variables will change: -int ledState = HIGH; // the current state of the output pin -int buttonState; // the current reading from the input pin -int lastButtonState = LOW; // the previous reading from the input pin - -// the following variables are unsigned longs because the time, measured in -// milliseconds, will quickly become a bigger number than can be stored in an int. -unsigned long lastDebounceTime = 0; // the last time the output pin was toggled -unsigned long debounceDelay = 50; // the debounce time; increase if the output flickers - -void setup() { - pinMode(buttonPin, INPUT); - pinMode(ledPin, OUTPUT); - - // set initial LED state - digitalWrite(ledPin, ledState); -} - -void loop() { - // read the state of the switch into a local variable: - int reading = digitalRead(buttonPin); - - // check to see if you just pressed the button - // (i.e. the input went from LOW to HIGH), and you've waited long enough - // since the last press to ignore any noise: - - // If the switch changed, due to noise or pressing: - if (reading != lastButtonState) { - // reset the debouncing timer - lastDebounceTime = millis(); - } - - if ((millis() - lastDebounceTime) > debounceDelay) { - // whatever the reading is at, it's been there for longer than the debounce - // delay, so take it as the actual current state: - - // if the button state has changed: - if (reading != buttonState) { - buttonState = reading; - - // only toggle the LED if the new button state is HIGH - if (buttonState == HIGH) { - ledState = !ledState; - } - } - } - - // set the LED: - digitalWrite(ledPin, ledState); - - // save the reading. Next time through the loop, it'll be the lastButtonState: - lastButtonState = reading; -} diff --git a/build/shared/examples/02.Digital/Debounce/Debounce.txt b/build/shared/examples/02.Digital/Debounce/Debounce.txt deleted file mode 100644 index e6bd88044..000000000 --- a/build/shared/examples/02.Digital/Debounce/Debounce.txt +++ /dev/null @@ -1 +0,0 @@ -Read a pushbutton, filtering noise.
\ No newline at end of file diff --git a/build/shared/examples/02.Digital/Debounce/button.png b/build/shared/examples/02.Digital/Debounce/button.png Binary files differdeleted file mode 100644 index 1a312f2f0..000000000 --- a/build/shared/examples/02.Digital/Debounce/button.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/Debounce/schematic.png b/build/shared/examples/02.Digital/Debounce/schematic.png Binary files differdeleted file mode 100644 index 3d05fe903..000000000 --- a/build/shared/examples/02.Digital/Debounce/schematic.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/DigitalInputPullup/DigitalInputPullup.ino b/build/shared/examples/02.Digital/DigitalInputPullup/DigitalInputPullup.ino deleted file mode 100644 index dc641ac71..000000000 --- a/build/shared/examples/02.Digital/DigitalInputPullup/DigitalInputPullup.ino +++ /dev/null @@ -1,46 +0,0 @@ -/* - Input Pull-up Serial - - This example demonstrates the use of pinMode(INPUT_PULLUP). It reads a digital - input on pin 2 and prints the results to the Serial Monitor. - - The circuit: - - momentary switch attached from pin 2 to ground - - built-in LED on pin 13 - - Unlike pinMode(INPUT), there is no pull-down resistor necessary. An internal - 20K-ohm resistor is pulled to 5V. This configuration causes the input to read - HIGH when the switch is open, and LOW when it is closed. - - created 14 Mar 2012 - by Scott Fitzgerald - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/InputPullupSerial -*/ - -void setup() { - //start serial connection - Serial.begin(9600); - //configure pin 2 as an input and enable the internal pull-up resistor - pinMode(2, INPUT_PULLUP); - pinMode(13, OUTPUT); - -} - -void loop() { - //read the pushbutton value into a variable - int sensorVal = digitalRead(2); - //print out the value of the pushbutton - Serial.println(sensorVal); - - // Keep in mind the pull-up means the pushbutton's logic is inverted. It goes - // HIGH when it's open, and LOW when it's pressed. Turn on pin 13 when the - // button's pressed, and off when it's not: - if (sensorVal == HIGH) { - digitalWrite(13, LOW); - } else { - digitalWrite(13, HIGH); - } -} diff --git a/build/shared/examples/02.Digital/DigitalInputPullup/DigitalInputPullup.txt b/build/shared/examples/02.Digital/DigitalInputPullup/DigitalInputPullup.txt deleted file mode 100644 index 170363b86..000000000 --- a/build/shared/examples/02.Digital/DigitalInputPullup/DigitalInputPullup.txt +++ /dev/null @@ -1 +0,0 @@ -Demonstrates the use of INPUT_PULLUP with pinMode().
\ No newline at end of file diff --git a/build/shared/examples/02.Digital/DigitalInputPullup/layout.png b/build/shared/examples/02.Digital/DigitalInputPullup/layout.png Binary files differdeleted file mode 100644 index f057b8d95..000000000 --- a/build/shared/examples/02.Digital/DigitalInputPullup/layout.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/DigitalInputPullup/schematic.png b/build/shared/examples/02.Digital/DigitalInputPullup/schematic.png Binary files differdeleted file mode 100644 index 22d0e2666..000000000 --- a/build/shared/examples/02.Digital/DigitalInputPullup/schematic.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/StateChangeDetection/StateChangeDetection.ino b/build/shared/examples/02.Digital/StateChangeDetection/StateChangeDetection.ino deleted file mode 100644 index a5ba8dab2..000000000 --- a/build/shared/examples/02.Digital/StateChangeDetection/StateChangeDetection.ino +++ /dev/null @@ -1,79 +0,0 @@ -/* - State change detection (edge detection) - - Often, you don't need to know the state of a digital input all the time, but - you just need to know when the input changes from one state to another. - For example, you want to know when a button goes from OFF to ON. This is called - state change detection, or edge detection. - - This example shows how to detect when a button or button changes from off to on - and on to off. - - The circuit: - - pushbutton attached to pin 2 from +5V - - 10 kilohm resistor attached to pin 2 from ground - - LED attached from pin 13 to ground (or use the built-in LED on most - Arduino boards) - - created 27 Sep 2005 - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/ButtonStateChange -*/ - -// this constant won't change: -const int buttonPin = 2; // the pin that the pushbutton is attached to -const int ledPin = 13; // the pin that the LED is attached to - -// Variables will change: -int buttonPushCounter = 0; // counter for the number of button presses -int buttonState = 0; // current state of the button -int lastButtonState = 0; // previous state of the button - -void setup() { - // initialize the button pin as a input: - pinMode(buttonPin, INPUT); - // initialize the LED as an output: - pinMode(ledPin, OUTPUT); - // initialize serial communication: - Serial.begin(9600); -} - - -void loop() { - // read the pushbutton input pin: - buttonState = digitalRead(buttonPin); - - // compare the buttonState to its previous state - if (buttonState != lastButtonState) { - // if the state has changed, increment the counter - if (buttonState == HIGH) { - // if the current state is HIGH then the button went from off to on: - buttonPushCounter++; - Serial.println("on"); - Serial.print("number of button pushes: "); - Serial.println(buttonPushCounter); - } else { - // if the current state is LOW then the button went from on to off: - Serial.println("off"); - } - // Delay a little bit to avoid bouncing - delay(50); - } - // save the current state as the last state, for next time through the loop - lastButtonState = buttonState; - - - // turns on the LED every four button pushes by checking the modulo of the - // button push counter. the modulo function gives you the remainder of the - // division of two numbers: - if (buttonPushCounter % 4 == 0) { - digitalWrite(ledPin, HIGH); - } else { - digitalWrite(ledPin, LOW); - } - -} diff --git a/build/shared/examples/02.Digital/StateChangeDetection/StateChangeDetection.txt b/build/shared/examples/02.Digital/StateChangeDetection/StateChangeDetection.txt deleted file mode 100644 index 7ec60fea8..000000000 --- a/build/shared/examples/02.Digital/StateChangeDetection/StateChangeDetection.txt +++ /dev/null @@ -1 +0,0 @@ -Counting the number of button pushes.
\ No newline at end of file diff --git a/build/shared/examples/02.Digital/StateChangeDetection/layout.png b/build/shared/examples/02.Digital/StateChangeDetection/layout.png Binary files differdeleted file mode 100644 index 1a312f2f0..000000000 --- a/build/shared/examples/02.Digital/StateChangeDetection/layout.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/StateChangeDetection/schematic.png b/build/shared/examples/02.Digital/StateChangeDetection/schematic.png Binary files differdeleted file mode 100644 index 3d05fe903..000000000 --- a/build/shared/examples/02.Digital/StateChangeDetection/schematic.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/toneKeyboard/layout.png b/build/shared/examples/02.Digital/toneKeyboard/layout.png Binary files differdeleted file mode 100644 index 8be1d9f32..000000000 --- a/build/shared/examples/02.Digital/toneKeyboard/layout.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/toneKeyboard/pitches.h b/build/shared/examples/02.Digital/toneKeyboard/pitches.h deleted file mode 100644 index 55c7d54e6..000000000 --- a/build/shared/examples/02.Digital/toneKeyboard/pitches.h +++ /dev/null @@ -1,95 +0,0 @@ -/************************************************* - * Public Constants - *************************************************/ - -#define NOTE_B0 31 -#define NOTE_C1 33 -#define NOTE_CS1 35 -#define NOTE_D1 37 -#define NOTE_DS1 39 -#define NOTE_E1 41 -#define NOTE_F1 44 -#define NOTE_FS1 46 -#define NOTE_G1 49 -#define NOTE_GS1 52 -#define NOTE_A1 55 -#define NOTE_AS1 58 -#define NOTE_B1 62 -#define NOTE_C2 65 -#define NOTE_CS2 69 -#define NOTE_D2 73 -#define NOTE_DS2 78 -#define NOTE_E2 82 -#define NOTE_F2 87 -#define NOTE_FS2 93 -#define NOTE_G2 98 -#define NOTE_GS2 104 -#define NOTE_A2 110 -#define NOTE_AS2 117 -#define NOTE_B2 123 -#define NOTE_C3 131 -#define NOTE_CS3 139 -#define NOTE_D3 147 -#define NOTE_DS3 156 -#define NOTE_E3 165 -#define NOTE_F3 175 -#define NOTE_FS3 185 -#define NOTE_G3 196 -#define NOTE_GS3 208 -#define NOTE_A3 220 -#define NOTE_AS3 233 -#define NOTE_B3 247 -#define NOTE_C4 262 -#define NOTE_CS4 277 -#define NOTE_D4 294 -#define NOTE_DS4 311 -#define NOTE_E4 330 -#define NOTE_F4 349 -#define NOTE_FS4 370 -#define NOTE_G4 392 -#define NOTE_GS4 415 -#define NOTE_A4 440 -#define NOTE_AS4 466 -#define NOTE_B4 494 -#define NOTE_C5 523 -#define NOTE_CS5 554 -#define NOTE_D5 587 -#define NOTE_DS5 622 -#define NOTE_E5 659 -#define NOTE_F5 698 -#define NOTE_FS5 740 -#define NOTE_G5 784 -#define NOTE_GS5 831 -#define NOTE_A5 880 -#define NOTE_AS5 932 -#define NOTE_B5 988 -#define NOTE_C6 1047 -#define NOTE_CS6 1109 -#define NOTE_D6 1175 -#define NOTE_DS6 1245 -#define NOTE_E6 1319 -#define NOTE_F6 1397 -#define NOTE_FS6 1480 -#define NOTE_G6 1568 -#define NOTE_GS6 1661 -#define NOTE_A6 1760 -#define NOTE_AS6 1865 -#define NOTE_B6 1976 -#define NOTE_C7 2093 -#define NOTE_CS7 2217 -#define NOTE_D7 2349 -#define NOTE_DS7 2489 -#define NOTE_E7 2637 -#define NOTE_F7 2794 -#define NOTE_FS7 2960 -#define NOTE_G7 3136 -#define NOTE_GS7 3322 -#define NOTE_A7 3520 -#define NOTE_AS7 3729 -#define NOTE_B7 3951 -#define NOTE_C8 4186 -#define NOTE_CS8 4435 -#define NOTE_D8 4699 -#define NOTE_DS8 4978 - - diff --git a/build/shared/examples/02.Digital/toneKeyboard/schematic.png b/build/shared/examples/02.Digital/toneKeyboard/schematic.png Binary files differdeleted file mode 100644 index 4aba04d49..000000000 --- a/build/shared/examples/02.Digital/toneKeyboard/schematic.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/toneKeyboard/toneKeyboard.ino b/build/shared/examples/02.Digital/toneKeyboard/toneKeyboard.ino deleted file mode 100644 index 7a958c90a..000000000 --- a/build/shared/examples/02.Digital/toneKeyboard/toneKeyboard.ino +++ /dev/null @@ -1,44 +0,0 @@ -/* - Keyboard - - Plays a pitch that changes based on a changing analog input - - circuit: - - three force-sensing resistors from +5V to analog in 0 through 5 - - three 10 kilohm resistors from analog in 0 through 5 to ground - - 8 ohm speaker on digital pin 8 - - created 21 Jan 2010 - modified 9 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Tone3 -*/ - -#include "pitches.h" - -const int threshold = 10; // minimum reading of the sensors that generates a note - -// notes to play, corresponding to the 3 sensors: -int notes[] = { - NOTE_A4, NOTE_B4, NOTE_C3 -}; - -void setup() { - -} - -void loop() { - for (int thisSensor = 0; thisSensor < 3; thisSensor++) { - // get a sensor reading: - int sensorReading = analogRead(thisSensor); - - // if the sensor is pressed hard enough: - if (sensorReading > threshold) { - // play the note corresponding to this sensor: - tone(8, notes[thisSensor], 20); - } - } -} diff --git a/build/shared/examples/02.Digital/toneKeyboard/toneKeyboard.txt b/build/shared/examples/02.Digital/toneKeyboard/toneKeyboard.txt deleted file mode 100644 index 007ef7ba6..000000000 --- a/build/shared/examples/02.Digital/toneKeyboard/toneKeyboard.txt +++ /dev/null @@ -1 +0,0 @@ -A three-key musical keyboard using force sensors and a piezo speaker.
\ No newline at end of file diff --git a/build/shared/examples/02.Digital/toneMelody/layout.png b/build/shared/examples/02.Digital/toneMelody/layout.png Binary files differdeleted file mode 100644 index 6e480b21c..000000000 --- a/build/shared/examples/02.Digital/toneMelody/layout.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/toneMelody/pitches.h b/build/shared/examples/02.Digital/toneMelody/pitches.h deleted file mode 100644 index 55c7d54e6..000000000 --- a/build/shared/examples/02.Digital/toneMelody/pitches.h +++ /dev/null @@ -1,95 +0,0 @@ -/************************************************* - * Public Constants - *************************************************/ - -#define NOTE_B0 31 -#define NOTE_C1 33 -#define NOTE_CS1 35 -#define NOTE_D1 37 -#define NOTE_DS1 39 -#define NOTE_E1 41 -#define NOTE_F1 44 -#define NOTE_FS1 46 -#define NOTE_G1 49 -#define NOTE_GS1 52 -#define NOTE_A1 55 -#define NOTE_AS1 58 -#define NOTE_B1 62 -#define NOTE_C2 65 -#define NOTE_CS2 69 -#define NOTE_D2 73 -#define NOTE_DS2 78 -#define NOTE_E2 82 -#define NOTE_F2 87 -#define NOTE_FS2 93 -#define NOTE_G2 98 -#define NOTE_GS2 104 -#define NOTE_A2 110 -#define NOTE_AS2 117 -#define NOTE_B2 123 -#define NOTE_C3 131 -#define NOTE_CS3 139 -#define NOTE_D3 147 -#define NOTE_DS3 156 -#define NOTE_E3 165 -#define NOTE_F3 175 -#define NOTE_FS3 185 -#define NOTE_G3 196 -#define NOTE_GS3 208 -#define NOTE_A3 220 -#define NOTE_AS3 233 -#define NOTE_B3 247 -#define NOTE_C4 262 -#define NOTE_CS4 277 -#define NOTE_D4 294 -#define NOTE_DS4 311 -#define NOTE_E4 330 -#define NOTE_F4 349 -#define NOTE_FS4 370 -#define NOTE_G4 392 -#define NOTE_GS4 415 -#define NOTE_A4 440 -#define NOTE_AS4 466 -#define NOTE_B4 494 -#define NOTE_C5 523 -#define NOTE_CS5 554 -#define NOTE_D5 587 -#define NOTE_DS5 622 -#define NOTE_E5 659 -#define NOTE_F5 698 -#define NOTE_FS5 740 -#define NOTE_G5 784 -#define NOTE_GS5 831 -#define NOTE_A5 880 -#define NOTE_AS5 932 -#define NOTE_B5 988 -#define NOTE_C6 1047 -#define NOTE_CS6 1109 -#define NOTE_D6 1175 -#define NOTE_DS6 1245 -#define NOTE_E6 1319 -#define NOTE_F6 1397 -#define NOTE_FS6 1480 -#define NOTE_G6 1568 -#define NOTE_GS6 1661 -#define NOTE_A6 1760 -#define NOTE_AS6 1865 -#define NOTE_B6 1976 -#define NOTE_C7 2093 -#define NOTE_CS7 2217 -#define NOTE_D7 2349 -#define NOTE_DS7 2489 -#define NOTE_E7 2637 -#define NOTE_F7 2794 -#define NOTE_FS7 2960 -#define NOTE_G7 3136 -#define NOTE_GS7 3322 -#define NOTE_A7 3520 -#define NOTE_AS7 3729 -#define NOTE_B7 3951 -#define NOTE_C8 4186 -#define NOTE_CS8 4435 -#define NOTE_D8 4699 -#define NOTE_DS8 4978 - - diff --git a/build/shared/examples/02.Digital/toneMelody/schematic.png b/build/shared/examples/02.Digital/toneMelody/schematic.png Binary files differdeleted file mode 100644 index 5baf5c6e6..000000000 --- a/build/shared/examples/02.Digital/toneMelody/schematic.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/toneMelody/toneMelody.ino b/build/shared/examples/02.Digital/toneMelody/toneMelody.ino deleted file mode 100644 index 8cc1b53d0..000000000 --- a/build/shared/examples/02.Digital/toneMelody/toneMelody.ino +++ /dev/null @@ -1,50 +0,0 @@ -/* - Melody - - Plays a melody - - circuit: - - 8 ohm speaker on digital pin 8 - - created 21 Jan 2010 - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Tone -*/ - -#include "pitches.h" - -// notes in the melody: -int melody[] = { - NOTE_C4, NOTE_G3, NOTE_G3, NOTE_A3, NOTE_G3, 0, NOTE_B3, NOTE_C4 -}; - -// note durations: 4 = quarter note, 8 = eighth note, etc.: -int noteDurations[] = { - 4, 8, 8, 4, 4, 4, 4, 4 -}; - -void setup() { - // iterate over the notes of the melody: - for (int thisNote = 0; thisNote < 8; thisNote++) { - - // to calculate the note duration, take one second divided by the note type. - //e.g. quarter note = 1000 / 4, eighth note = 1000/8, etc. - int noteDuration = 1000 / noteDurations[thisNote]; - tone(8, melody[thisNote], noteDuration); - - // to distinguish the notes, set a minimum time between them. - // the note's duration + 30% seems to work well: - int pauseBetweenNotes = noteDuration * 1.30; - delay(pauseBetweenNotes); - // stop the tone playing: - noTone(8); - } -} - -void loop() { - // no need to repeat the melody. -} diff --git a/build/shared/examples/02.Digital/toneMelody/toneMelody.txt b/build/shared/examples/02.Digital/toneMelody/toneMelody.txt deleted file mode 100644 index 10aea41d6..000000000 --- a/build/shared/examples/02.Digital/toneMelody/toneMelody.txt +++ /dev/null @@ -1 +0,0 @@ -Play a melody with a Piezo speaker.
\ No newline at end of file diff --git a/build/shared/examples/02.Digital/toneMultiple/layout.png b/build/shared/examples/02.Digital/toneMultiple/layout.png Binary files differdeleted file mode 100644 index f64fe205d..000000000 --- a/build/shared/examples/02.Digital/toneMultiple/layout.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/toneMultiple/schematic.png b/build/shared/examples/02.Digital/toneMultiple/schematic.png Binary files differdeleted file mode 100644 index b4fc8ab20..000000000 --- a/build/shared/examples/02.Digital/toneMultiple/schematic.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/toneMultiple/toneMultiple.ino b/build/shared/examples/02.Digital/toneMultiple/toneMultiple.ino deleted file mode 100644 index f21f5726a..000000000 --- a/build/shared/examples/02.Digital/toneMultiple/toneMultiple.ino +++ /dev/null @@ -1,40 +0,0 @@ -/* - Multiple tone player - - Plays multiple tones on multiple pins in sequence - - circuit: - - three 8 ohm speakers on digital pins 6, 7, and 8 - - created 8 Mar 2010 - by Tom Igoe - based on a snippet from Greg Borenstein - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Tone4 -*/ - -void setup() { - -} - -void loop() { - // turn off tone function for pin 8: - noTone(8); - // play a note on pin 6 for 200 ms: - tone(6, 440, 200); - delay(200); - - // turn off tone function for pin 6: - noTone(6); - // play a note on pin 7 for 500 ms: - tone(7, 494, 500); - delay(500); - - // turn off tone function for pin 7: - noTone(7); - // play a note on pin 8 for 300 ms: - tone(8, 523, 300); - delay(300); -} diff --git a/build/shared/examples/02.Digital/toneMultiple/toneMultiple.txt b/build/shared/examples/02.Digital/toneMultiple/toneMultiple.txt deleted file mode 100644 index b94bb85a3..000000000 --- a/build/shared/examples/02.Digital/toneMultiple/toneMultiple.txt +++ /dev/null @@ -1 +0,0 @@ -Play tones on multiple speakers sequentially using the tone() command.
\ No newline at end of file diff --git a/build/shared/examples/02.Digital/tonePitchFollower/layout.png b/build/shared/examples/02.Digital/tonePitchFollower/layout.png Binary files differdeleted file mode 100644 index 45d11b833..000000000 --- a/build/shared/examples/02.Digital/tonePitchFollower/layout.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/tonePitchFollower/schematic.png b/build/shared/examples/02.Digital/tonePitchFollower/schematic.png Binary files differdeleted file mode 100644 index 1ba83cdc6..000000000 --- a/build/shared/examples/02.Digital/tonePitchFollower/schematic.png +++ /dev/null diff --git a/build/shared/examples/02.Digital/tonePitchFollower/tonePitchFollower.ino b/build/shared/examples/02.Digital/tonePitchFollower/tonePitchFollower.ino deleted file mode 100644 index c8d85679c..000000000 --- a/build/shared/examples/02.Digital/tonePitchFollower/tonePitchFollower.ino +++ /dev/null @@ -1,39 +0,0 @@ -/* - Pitch follower - - Plays a pitch that changes based on a changing analog input - - circuit: - - 8 ohm speaker on digital pin 9 - - photoresistor on analog 0 to 5V - - 4.7 kilohm resistor on analog 0 to ground - - created 21 Jan 2010 - modified 31 May 2012 - by Tom Igoe, with suggestion from Michael Flynn - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Tone2 -*/ - -void setup() { - // initialize serial communications (for debugging only): - Serial.begin(9600); -} - -void loop() { - // read the sensor: - int sensorReading = analogRead(A0); - // print the sensor reading so you know its range - Serial.println(sensorReading); - // map the analog input range (in this case, 400 - 1000 from the photoresistor) - // to the output pitch range (120 - 1500Hz) - // change the minimum and maximum input numbers below depending on the range - // your sensor's giving: - int thisPitch = map(sensorReading, 400, 1000, 120, 1500); - - // play the pitch: - tone(9, thisPitch, 10); - delay(1); // delay in between reads for stability -} diff --git a/build/shared/examples/02.Digital/tonePitchFollower/tonePitchFollower.txt b/build/shared/examples/02.Digital/tonePitchFollower/tonePitchFollower.txt deleted file mode 100644 index 7899464b8..000000000 --- a/build/shared/examples/02.Digital/tonePitchFollower/tonePitchFollower.txt +++ /dev/null @@ -1 +0,0 @@ -Play a pitch on a piezo speaker depending on an analog input.
\ No newline at end of file diff --git a/build/shared/examples/03.Analog/AnalogInOutSerial/AnalogInOutSerial.ino b/build/shared/examples/03.Analog/AnalogInOutSerial/AnalogInOutSerial.ino deleted file mode 100644 index 6675a8c88..000000000 --- a/build/shared/examples/03.Analog/AnalogInOutSerial/AnalogInOutSerial.ino +++ /dev/null @@ -1,52 +0,0 @@ -/* - Analog input, analog output, serial output - - Reads an analog input pin, maps the result to a range from 0 to 255 and uses - the result to set the pulse width modulation (PWM) of an output pin. - Also prints the results to the Serial Monitor. - - The circuit: - - potentiometer connected to analog pin 0. - Center pin of the potentiometer goes to the analog pin. - side pins of the potentiometer go to +5V and ground - - LED connected from digital pin 9 to ground - - created 29 Dec. 2008 - modified 9 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/AnalogInOutSerial -*/ - -// These constants won't change. They're used to give names to the pins used: -const int analogInPin = A0; // Analog input pin that the potentiometer is attached to -const int analogOutPin = 9; // Analog output pin that the LED is attached to - -int sensorValue = 0; // value read from the pot -int outputValue = 0; // value output to the PWM (analog out) - -void setup() { - // initialize serial communications at 9600 bps: - Serial.begin(9600); -} - -void loop() { - // read the analog in value: - sensorValue = analogRead(analogInPin); - // map it to the range of the analog out: - outputValue = map(sensorValue, 0, 1023, 0, 255); - // change the analog out value: - analogWrite(analogOutPin, outputValue); - - // print the results to the Serial Monitor: - Serial.print("sensor = "); - Serial.print(sensorValue); - Serial.print("\t output = "); - Serial.println(outputValue); - - // wait 2 milliseconds before the next loop for the analog-to-digital - // converter to settle after the last reading: - delay(2); -} diff --git a/build/shared/examples/03.Analog/AnalogInOutSerial/AnalogInOutSerial.txt b/build/shared/examples/03.Analog/AnalogInOutSerial/AnalogInOutSerial.txt deleted file mode 100644 index 445119a4a..000000000 --- a/build/shared/examples/03.Analog/AnalogInOutSerial/AnalogInOutSerial.txt +++ /dev/null @@ -1 +0,0 @@ -Read an analog input pin, map the result, and then use that data to dim or brighten an LED.
\ No newline at end of file diff --git a/build/shared/examples/03.Analog/AnalogInOutSerial/layout.png b/build/shared/examples/03.Analog/AnalogInOutSerial/layout.png Binary files differdeleted file mode 100644 index 6aa3d2044..000000000 --- a/build/shared/examples/03.Analog/AnalogInOutSerial/layout.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/AnalogInOutSerial/schematic.png b/build/shared/examples/03.Analog/AnalogInOutSerial/schematic.png Binary files differdeleted file mode 100644 index e93207079..000000000 --- a/build/shared/examples/03.Analog/AnalogInOutSerial/schematic.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/AnalogInput/AnalogInput.ino b/build/shared/examples/03.Analog/AnalogInput/AnalogInput.ino deleted file mode 100644 index 13e7b5220..000000000 --- a/build/shared/examples/03.Analog/AnalogInput/AnalogInput.ino +++ /dev/null @@ -1,50 +0,0 @@ -/* - Analog Input - - Demonstrates analog input by reading an analog sensor on analog pin 0 and - turning on and off a light emitting diode(LED) connected to digital pin 13. - The amount of time the LED will be on and off depends on the value obtained - by analogRead(). - - The circuit: - - potentiometer - center pin of the potentiometer to the analog input 0 - one side pin (either one) to ground - the other side pin to +5V - - LED - anode (long leg) attached to digital output 13 - cathode (short leg) attached to ground - - - Note: because most Arduinos have a built-in LED attached to pin 13 on the - board, the LED is optional. - - created by David Cuartielles - modified 30 Aug 2011 - By Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/AnalogInput -*/ - -int sensorPin = A0; // select the input pin for the potentiometer -int ledPin = 13; // select the pin for the LED -int sensorValue = 0; // variable to store the value coming from the sensor - -void setup() { - // declare the ledPin as an OUTPUT: - pinMode(ledPin, OUTPUT); -} - -void loop() { - // read the value from the sensor: - sensorValue = analogRead(sensorPin); - // turn the ledPin on - digitalWrite(ledPin, HIGH); - // stop the program for <sensorValue> milliseconds: - delay(sensorValue); - // turn the ledPin off: - digitalWrite(ledPin, LOW); - // stop the program for for <sensorValue> milliseconds: - delay(sensorValue); -} diff --git a/build/shared/examples/03.Analog/AnalogInput/AnalogInput.txt b/build/shared/examples/03.Analog/AnalogInput/AnalogInput.txt deleted file mode 100644 index 3f681a52e..000000000 --- a/build/shared/examples/03.Analog/AnalogInput/AnalogInput.txt +++ /dev/null @@ -1 +0,0 @@ -Use a potentiometer to control the blinking of an LED.
\ No newline at end of file diff --git a/build/shared/examples/03.Analog/AnalogInput/layout.png b/build/shared/examples/03.Analog/AnalogInput/layout.png Binary files differdeleted file mode 100644 index 8486b2afc..000000000 --- a/build/shared/examples/03.Analog/AnalogInput/layout.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/AnalogInput/schematic.png b/build/shared/examples/03.Analog/AnalogInput/schematic.png Binary files differdeleted file mode 100644 index 2529acd32..000000000 --- a/build/shared/examples/03.Analog/AnalogInput/schematic.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/AnalogWriteMega/AnalogWriteMega.ino b/build/shared/examples/03.Analog/AnalogWriteMega/AnalogWriteMega.ino deleted file mode 100644 index 37a62a1fa..000000000 --- a/build/shared/examples/03.Analog/AnalogWriteMega/AnalogWriteMega.ino +++ /dev/null @@ -1,46 +0,0 @@ -/* - Mega analogWrite() test - - This sketch fades LEDs up and down one at a time on digital pins 2 through 13. - This sketch was written for the Arduino Mega, and will not work on other boards. - - The circuit: - - LEDs attached from pins 2 through 13 to ground. - - created 8 Feb 2009 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/AnalogWriteMega -*/ - -// These constants won't change. They're used to give names to the pins used: -const int lowestPin = 2; -const int highestPin = 13; - - -void setup() { - // set pins 2 through 13 as outputs: - for (int thisPin = lowestPin; thisPin <= highestPin; thisPin++) { - pinMode(thisPin, OUTPUT); - } -} - -void loop() { - // iterate over the pins: - for (int thisPin = lowestPin; thisPin <= highestPin; thisPin++) { - // fade the LED on thisPin from off to brightest: - for (int brightness = 0; brightness < 255; brightness++) { - analogWrite(thisPin, brightness); - delay(2); - } - // fade the LED on thisPin from brightest to off: - for (int brightness = 255; brightness >= 0; brightness--) { - analogWrite(thisPin, brightness); - delay(2); - } - // pause between LEDs: - delay(100); - } -} diff --git a/build/shared/examples/03.Analog/AnalogWriteMega/AnalogWriteMega.txt b/build/shared/examples/03.Analog/AnalogWriteMega/AnalogWriteMega.txt deleted file mode 100644 index 9fc0e2af4..000000000 --- a/build/shared/examples/03.Analog/AnalogWriteMega/AnalogWriteMega.txt +++ /dev/null @@ -1 +0,0 @@ -Fade 12 LEDs on and off, one by one, using an Arduino Mega board.
\ No newline at end of file diff --git a/build/shared/examples/03.Analog/AnalogWriteMega/layout.png b/build/shared/examples/03.Analog/AnalogWriteMega/layout.png Binary files differdeleted file mode 100644 index f1a92a477..000000000 --- a/build/shared/examples/03.Analog/AnalogWriteMega/layout.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/AnalogWriteMega/schematic.png b/build/shared/examples/03.Analog/AnalogWriteMega/schematic.png Binary files differdeleted file mode 100644 index 2f0fa28f5..000000000 --- a/build/shared/examples/03.Analog/AnalogWriteMega/schematic.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/Calibration/Calibration.ino b/build/shared/examples/03.Analog/Calibration/Calibration.ino deleted file mode 100644 index 5c0fc6dfa..000000000 --- a/build/shared/examples/03.Analog/Calibration/Calibration.ino +++ /dev/null @@ -1,73 +0,0 @@ -/* - Calibration - - Demonstrates one technique for calibrating sensor input. The sensor readings - during the first five seconds of the sketch execution define the minimum and - maximum of expected values attached to the sensor pin. - - The sensor minimum and maximum initial values may seem backwards. Initially, - you set the minimum high and listen for anything lower, saving it as the new - minimum. Likewise, you set the maximum low and listen for anything higher as - the new maximum. - - The circuit: - - analog sensor (potentiometer will do) attached to analog input 0 - - LED attached from digital pin 9 to ground - - created 29 Oct 2008 - by David A Mellis - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Calibration -*/ - -// These constants won't change: -const int sensorPin = A0; // pin that the sensor is attached to -const int ledPin = 9; // pin that the LED is attached to - -// variables: -int sensorValue = 0; // the sensor value -int sensorMin = 1023; // minimum sensor value -int sensorMax = 0; // maximum sensor value - - -void setup() { - // turn on LED to signal the start of the calibration period: - pinMode(13, OUTPUT); - digitalWrite(13, HIGH); - - // calibrate during the first five seconds - while (millis() < 5000) { - sensorValue = analogRead(sensorPin); - - // record the maximum sensor value - if (sensorValue > sensorMax) { - sensorMax = sensorValue; - } - - // record the minimum sensor value - if (sensorValue < sensorMin) { - sensorMin = sensorValue; - } - } - - // signal the end of the calibration period - digitalWrite(13, LOW); -} - -void loop() { - // read the sensor: - sensorValue = analogRead(sensorPin); - - // apply the calibration to the sensor reading - sensorValue = map(sensorValue, sensorMin, sensorMax, 0, 255); - - // in case the sensor value is outside the range seen during calibration - sensorValue = constrain(sensorValue, 0, 255); - - // fade the LED using the calibrated value: - analogWrite(ledPin, sensorValue); -} diff --git a/build/shared/examples/03.Analog/Calibration/Calibration.txt b/build/shared/examples/03.Analog/Calibration/Calibration.txt deleted file mode 100644 index dcdeb7100..000000000 --- a/build/shared/examples/03.Analog/Calibration/Calibration.txt +++ /dev/null @@ -1 +0,0 @@ -Define a maximum and minimum for expected analog sensor values.
\ No newline at end of file diff --git a/build/shared/examples/03.Analog/Calibration/layout.png b/build/shared/examples/03.Analog/Calibration/layout.png Binary files differdeleted file mode 100644 index 2e6cb4276..000000000 --- a/build/shared/examples/03.Analog/Calibration/layout.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/Calibration/schematic.png b/build/shared/examples/03.Analog/Calibration/schematic.png Binary files differdeleted file mode 100644 index 915668438..000000000 --- a/build/shared/examples/03.Analog/Calibration/schematic.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/Fading/Fading.ino b/build/shared/examples/03.Analog/Fading/Fading.ino deleted file mode 100644 index 1612b8b99..000000000 --- a/build/shared/examples/03.Analog/Fading/Fading.ino +++ /dev/null @@ -1,41 +0,0 @@ -/* - Fading - - This example shows how to fade an LED using the analogWrite() function. - - The circuit: - - LED attached from digital pin 9 to ground. - - created 1 Nov 2008 - by David A. Mellis - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Fading -*/ - -int ledPin = 9; // LED connected to digital pin 9 - -void setup() { - // nothing happens in setup -} - -void loop() { - // fade in from min to max in increments of 5 points: - for (int fadeValue = 0 ; fadeValue <= 255; fadeValue += 5) { - // sets the value (range from 0 to 255): - analogWrite(ledPin, fadeValue); - // wait for 30 milliseconds to see the dimming effect - delay(30); - } - - // fade out from max to min in increments of 5 points: - for (int fadeValue = 255 ; fadeValue >= 0; fadeValue -= 5) { - // sets the value (range from 0 to 255): - analogWrite(ledPin, fadeValue); - // wait for 30 milliseconds to see the dimming effect - delay(30); - } -} diff --git a/build/shared/examples/03.Analog/Fading/Fading.txt b/build/shared/examples/03.Analog/Fading/Fading.txt deleted file mode 100644 index 4f7998584..000000000 --- a/build/shared/examples/03.Analog/Fading/Fading.txt +++ /dev/null @@ -1 +0,0 @@ -Use an analog output (PWM pin) to fade an LED.
\ No newline at end of file diff --git a/build/shared/examples/03.Analog/Fading/layout.png b/build/shared/examples/03.Analog/Fading/layout.png Binary files differdeleted file mode 100644 index e1330feaf..000000000 --- a/build/shared/examples/03.Analog/Fading/layout.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/Fading/schematic.png b/build/shared/examples/03.Analog/Fading/schematic.png Binary files differdeleted file mode 100644 index a89de3733..000000000 --- a/build/shared/examples/03.Analog/Fading/schematic.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/Smoothing/Smoothing.ino b/build/shared/examples/03.Analog/Smoothing/Smoothing.ino deleted file mode 100644 index 5df0d0554..000000000 --- a/build/shared/examples/03.Analog/Smoothing/Smoothing.ino +++ /dev/null @@ -1,64 +0,0 @@ -/* - Smoothing - - Reads repeatedly from an analog input, calculating a running average and - printing it to the computer. Keeps ten readings in an array and continually - averages them. - - The circuit: - - analog sensor (potentiometer will do) attached to analog input 0 - - created 22 Apr 2007 - by David A. Mellis <dam@mellis.org> - modified 9 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Smoothing -*/ - -// Define the number of samples to keep track of. The higher the number, the -// more the readings will be smoothed, but the slower the output will respond to -// the input. Using a constant rather than a normal variable lets us use this -// value to determine the size of the readings array. -const int numReadings = 10; - -int readings[numReadings]; // the readings from the analog input -int readIndex = 0; // the index of the current reading -int total = 0; // the running total -int average = 0; // the average - -int inputPin = A0; - -void setup() { - // initialize serial communication with computer: - Serial.begin(9600); - // initialize all the readings to 0: - for (int thisReading = 0; thisReading < numReadings; thisReading++) { - readings[thisReading] = 0; - } -} - -void loop() { - // subtract the last reading: - total = total - readings[readIndex]; - // read from the sensor: - readings[readIndex] = analogRead(inputPin); - // add the reading to the total: - total = total + readings[readIndex]; - // advance to the next position in the array: - readIndex = readIndex + 1; - - // if we're at the end of the array... - if (readIndex >= numReadings) { - // ...wrap around to the beginning: - readIndex = 0; - } - - // calculate the average: - average = total / numReadings; - // send it to the computer as ASCII digits - Serial.println(average); - delay(1); // delay in between reads for stability -} diff --git a/build/shared/examples/03.Analog/Smoothing/Smoothing.txt b/build/shared/examples/03.Analog/Smoothing/Smoothing.txt deleted file mode 100644 index 64c82a05f..000000000 --- a/build/shared/examples/03.Analog/Smoothing/Smoothing.txt +++ /dev/null @@ -1 +0,0 @@ -Smooth multiple readings of an analog input.
\ No newline at end of file diff --git a/build/shared/examples/03.Analog/Smoothing/layout.png b/build/shared/examples/03.Analog/Smoothing/layout.png Binary files differdeleted file mode 100644 index 8486b2afc..000000000 --- a/build/shared/examples/03.Analog/Smoothing/layout.png +++ /dev/null diff --git a/build/shared/examples/03.Analog/Smoothing/schematic.png b/build/shared/examples/03.Analog/Smoothing/schematic.png Binary files differdeleted file mode 100644 index 2529acd32..000000000 --- a/build/shared/examples/03.Analog/Smoothing/schematic.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/ASCIITable/ASCIITable.ino b/build/shared/examples/04.Communication/ASCIITable/ASCIITable.ino deleted file mode 100644 index 7cf55d03e..000000000 --- a/build/shared/examples/04.Communication/ASCIITable/ASCIITable.ino +++ /dev/null @@ -1,77 +0,0 @@ -/* - ASCII table - - Prints out byte values in all possible formats: - - as raw binary values - - as ASCII-encoded decimal, hex, octal, and binary values - - For more on ASCII, see http://www.asciitable.com and http://en.wikipedia.org/wiki/ASCII - - The circuit: No external hardware needed. - - created 2006 - by Nicholas Zambetti <http://www.zambetti.com> - modified 9 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/ASCIITable -*/ - -void setup() { - //Initialize serial and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // prints title with ending line break - Serial.println("ASCII Table ~ Character Map"); -} - -// first visible ASCIIcharacter '!' is number 33: -int thisByte = 33; -// you can also write ASCII characters in single quotes. -// for example, '!' is the same as 33, so you could also use this: -// int thisByte = '!'; - -void loop() { - // prints value unaltered, i.e. the raw binary version of the byte. - // The Serial Monitor interprets all bytes as ASCII, so 33, the first number, - // will show up as '!' - Serial.write(thisByte); - - Serial.print(", dec: "); - // prints value as string as an ASCII-encoded decimal (base 10). - // Decimal is the default format for Serial.print() and Serial.println(), - // so no modifier is needed: - Serial.print(thisByte); - // But you can declare the modifier for decimal if you want to. - // this also works if you uncomment it: - - // Serial.print(thisByte, DEC); - - - Serial.print(", hex: "); - // prints value as string in hexadecimal (base 16): - Serial.print(thisByte, HEX); - - Serial.print(", oct: "); - // prints value as string in octal (base 8); - Serial.print(thisByte, OCT); - - Serial.print(", bin: "); - // prints value as string in binary (base 2) also prints ending line break: - Serial.println(thisByte, BIN); - - // if printed last visible character '~' or 126, stop: - if (thisByte == 126) { // you could also use if (thisByte == '~') { - // This loop loops forever and does nothing - while (true) { - continue; - } - } - // go on to the next character - thisByte++; -} diff --git a/build/shared/examples/04.Communication/ASCIITable/ASCIITable.txt b/build/shared/examples/04.Communication/ASCIITable/ASCIITable.txt deleted file mode 100644 index dc492ef13..000000000 --- a/build/shared/examples/04.Communication/ASCIITable/ASCIITable.txt +++ /dev/null @@ -1 +0,0 @@ -Demonstrates Arduino's advanced serial output functions.
\ No newline at end of file diff --git a/build/shared/examples/04.Communication/Dimmer/Dimmer.ino b/build/shared/examples/04.Communication/Dimmer/Dimmer.ino deleted file mode 100644 index 1388e0f10..000000000 --- a/build/shared/examples/04.Communication/Dimmer/Dimmer.ino +++ /dev/null @@ -1,114 +0,0 @@ -/* - Dimmer - - Demonstrates sending data from the computer to the Arduino board, in this case - to control the brightness of an LED. The data is sent in individual bytes, - each of which ranges from 0 to 255. Arduino reads these bytes and uses them to - set the brightness of the LED. - - The circuit: - - LED attached from digital pin 9 to ground. - - Serial connection to Processing, Max/MSP, or another serial application - - created 2006 - by David A. Mellis - modified 30 Aug 2011 - by Tom Igoe and Scott Fitzgerald - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Dimmer -*/ - -const int ledPin = 9; // the pin that the LED is attached to - -void setup() { - // initialize the serial communication: - Serial.begin(9600); - // initialize the ledPin as an output: - pinMode(ledPin, OUTPUT); -} - -void loop() { - byte brightness; - - // check if data has been sent from the computer: - if (Serial.available()) { - // read the most recent byte (which will be from 0 to 255): - brightness = Serial.read(); - // set the brightness of the LED: - analogWrite(ledPin, brightness); - } -} - -/* Processing code for this example - - // Dimmer - sends bytes over a serial port - - // by David A. Mellis - // This example code is in the public domain. - - import processing.serial.*; - Serial port; - - void setup() { - size(256, 150); - - println("Available serial ports:"); - // if using Processing 2.1 or later, use Serial.printArray() - println(Serial.list()); - - // Uses the first port in this list (number 0). Change this to select the port - // corresponding to your Arduino board. The last parameter (e.g. 9600) is the - // speed of the communication. It has to correspond to the value passed to - // Serial.begin() in your Arduino sketch. - port = new Serial(this, Serial.list()[0], 9600); - - // If you know the name of the port used by the Arduino board, you can specify - // it directly like this. - //port = new Serial(this, "COM1", 9600); - } - - void draw() { - // draw a gradient from black to white - for (int i = 0; i < 256; i++) { - stroke(i); - line(i, 0, i, 150); - } - - // write the current X-position of the mouse to the serial port as - // a single byte - port.write(mouseX); - } - -*/ - -/* Max/MSP v5 patch for this example - -----------begin_max5_patcher---------- -1008.3ocuXszaiaCD9r8uhA5rqAeHIa0aAMaAVf1S6hdoYQAsDiL6JQZHQ2M -YWr+2KeX4vjnjXKKkKhhiGQ9MeyCNz+X9rnMp63sQvuB+MLa1OlOalSjUvrC -ymEUytKuh05TKJWUWyk5nE9eSyuS6jesvHu4F4MxOuUzB6X57sPKWVzBLXiP -xZtGj6q2vafaaT0.BzJfjj.p8ZPukazsQvpfcpFs8mXR3plh8BoBxURIOWyK -rxspZ0YI.eTCEh5Vqp+wGtFXZMKe6CZc3yWZwTdCmYW.BBkdiby8v0r+ST.W -sD9SdUkn8FYspPbqvnBNFtZWiUyLmleJWo0vuKzeuj2vpJLaWA7YiE7wREui -FpDFDp1KcbAFcP5sJoVxp4NB5Jq40ougIDxJt1wo3GDZHiNocKhiIExx+owv -AdOEAksDs.RRrOoww1Arc.9RvN2J9tamwjkcqknvAE0l+8WnjHqreNet8whK -z6mukIK4d+Xknv3jstvJs8EirMMhxsZIusET25jXbX8xczIl5xPVxhPcTGFu -xNDu9rXtUCg37g9Q8Yc+EuofIYmg8QdkPCrOnXsaHwYs3rWx9PGsO+pqueG2 -uNQBqWFh1X7qQG+3.VHcHrfO1nyR2TlqpTM9MDsLKNCQVz6KO.+Sfc5j1Ykj -jzkn2jwNDRP7LVb3d9LtoWBAOnvB92Le6yRmZ4UF7YpQhiFi7A5Ka8zXhKdA -4r9TRGG7V4COiSbAJKdXrWNhhF0hNUh7uBa4Mba0l7JUK+omjDMwkSn95Izr -TOwkdp7W.oPRmNRQsiKeu4j3CkfVgt.NYPEYqMGvvJ48vIlPiyzrIuZskWIS -xGJPcmPiWOfLodybH3wjPbMYwlbFIMNHPHFOtLBNaLSa9sGk1TxMzCX5KTa6 -WIH2ocxSdngM0QPqFRxyPHFsprrhGc9Gy9xoBjz0NWdR2yW9DUa2F85jG2v9 -FgTO4Q8qiC7fzzQNpmNpsY3BrYPVJBMJQ1uVmoItRhw9NrVGO3NMNzYZ+zS7 -3WTvTOnUydG5kHMKLqAOjTe7fN2bGSxOZDkMrBrGQ9J1gONBEy0k4gVo8qHc -cxmfxVihWz6a3yqY9NazzUYkua9UnynadOtogW.JfsVGRVNEbWF8I+eHtcwJ -+wLXqZeSdWLo+FQF6731Tva0BISKTx.cLwmgJsUTTvkg1YsnXmxDge.CDR7x -D6YmX6fMznaF7kdczmJXwm.XSOOrdoHhNA7GMiZYLZZR.+4lconMaJP6JOZ8 -ftCs1YWHZI3o.sIXezX5ihMSuXzZtk3ai1mXRSczoCS32hAydeyXNEu5SHyS -xqZqbd3ZLdera1iPqYxOm++v7SUSz ------------end_max5_patcher----------- - -*/ diff --git a/build/shared/examples/04.Communication/Dimmer/Dimmer.txt b/build/shared/examples/04.Communication/Dimmer/Dimmer.txt deleted file mode 100644 index c71de2bb3..000000000 --- a/build/shared/examples/04.Communication/Dimmer/Dimmer.txt +++ /dev/null @@ -1 +0,0 @@ -Move the mouse to change the brightness of an LED.
\ No newline at end of file diff --git a/build/shared/examples/04.Communication/Dimmer/layout.png b/build/shared/examples/04.Communication/Dimmer/layout.png Binary files differdeleted file mode 100644 index e1330feaf..000000000 --- a/build/shared/examples/04.Communication/Dimmer/layout.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/Dimmer/schematic.png b/build/shared/examples/04.Communication/Dimmer/schematic.png Binary files differdeleted file mode 100644 index 6dd229492..000000000 --- a/build/shared/examples/04.Communication/Dimmer/schematic.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/Graph/Graph.ino b/build/shared/examples/04.Communication/Graph/Graph.ino deleted file mode 100644 index 20ad590b3..000000000 --- a/build/shared/examples/04.Communication/Graph/Graph.ino +++ /dev/null @@ -1,152 +0,0 @@ -/* - Graph - - A simple example of communication from the Arduino board to the computer: The - value of analog input 0 is sent out the serial port. We call this "serial" - communication because the connection appears to both the Arduino and the - computer as a serial port, even though it may actually use a USB cable. Bytes - are sent one after another (serially) from the Arduino to the computer. - - You can use the Arduino Serial Monitor to view the sent data, or it can be - read by Processing, PD, Max/MSP, or any other program capable of reading data - from a serial port. The Processing code below graphs the data received so you - can see the value of the analog input changing over time. - - The circuit: - - any analog input sensor attached to analog in pin 0 - - created 2006 - by David A. Mellis - modified 9 Apr 2012 - by Tom Igoe and Scott Fitzgerald - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Graph -*/ - -void setup() { - // initialize the serial communication: - Serial.begin(9600); -} - -void loop() { - // send the value of analog input 0: - Serial.println(analogRead(A0)); - // wait a bit for the analog-to-digital converter to stabilize after the last - // reading: - delay(2); -} - -/* Processing code for this example - - // Graphing sketch - - // This program takes ASCII-encoded strings from the serial port at 9600 baud - // and graphs them. It expects values in the range 0 to 1023, followed by a - // newline, or newline and carriage return - - // created 20 Apr 2005 - // updated 24 Nov 2015 - // by Tom Igoe - // This example code is in the public domain. - - import processing.serial.*; - - Serial myPort; // The serial port - int xPos = 1; // horizontal position of the graph - float inByte = 0; - - void setup () { - // set the window size: - size(400, 300); - - // List all the available serial ports - // if using Processing 2.1 or later, use Serial.printArray() - println(Serial.list()); - - // I know that the first port in the serial list on my Mac is always my - // Arduino, so I open Serial.list()[0]. - // Open whatever port is the one you're using. - myPort = new Serial(this, Serial.list()[0], 9600); - - // don't generate a serialEvent() unless you get a newline character: - myPort.bufferUntil('\n'); - - // set initial background: - background(0); - } - - void draw () { - // draw the line: - stroke(127, 34, 255); - line(xPos, height, xPos, height - inByte); - - // at the edge of the screen, go back to the beginning: - if (xPos >= width) { - xPos = 0; - background(0); - } else { - // increment the horizontal position: - xPos++; - } - } - - void serialEvent (Serial myPort) { - // get the ASCII string: - String inString = myPort.readStringUntil('\n'); - - if (inString != null) { - // trim off any whitespace: - inString = trim(inString); - // convert to an int and map to the screen height: - inByte = float(inString); - println(inByte); - inByte = map(inByte, 0, 1023, 0, height); - } - } - -*/ - -/* Max/MSP v5 patch for this example - - ----------begin_max5_patcher---------- -1591.3oc0YszbaaCD9r7uBL5RalQUAO3CvdyS5zVenWZxs5NcfHgjPCIfJIT -RTxj+6AOHkoTDooroUs0AQPR73a+1cwtK3WtZxzEpOwqlB9YveAlL4KWMYh6 -Q1GLo99ISKXeJMmU451zTUQAWpmNy+NM+SZ2y+sR1l02JuU9t0hJvFlNcMPy -dOuBv.U5Rgb0LPpRpYBooM3529latArTUVvzZdFPtsXAuDrrTU.f.sBffXxL -vGE50lIHkUVJXq3fRtdaoDvjYfbgjujaFJSCzq4.tLaN.bi1tJefWpqbO0uz -1IjIABoluxrJ1guxh2JfPO2B5zRNyBCLDFcqbwNvuv9fHCb8bvevyyEU2JKT -YhkBSWPAfq2TZ6YhqmuMUo0feUn+rYpY4YtY+cFw3lUJdCMYAapZqzwUHX8S -crjAd+SIOU6UBAwIygy.Q1+HAA1KH6EveWOFQlitUK92ehfal9kFhUxJ3tWc -sgpxadigWExbt1o7Ps5dk3yttivyg20W0VcSmg1G90qtx92rAZbH4ez.ruy1 -nhmaDPidE07J+5n2sg6E6oKXxUSmc20o6E3SPRDbrkXnPGUYE.i5nCNB9TxQ -jG.G0kCTZtH88f07Rt0ZMMWUw8VvbKVAaTk6GyoraPdZff7rQTejBN54lgyv -HE0Ft7AvIvvgvIwO23jBdUkYOuSvIFSiNcjFhiSsUBwsUCh1AgfNSBAeNDBZ -DIDqY.f8.YjfjV1HAn9XDTxyNFYatVTkKx3kcK9GraZpI5jv7GOx+Z37Xh82 -LSKHIDmDXaESoXRngIZQDKVkpxUkMCyXCQhcCK1z.G457gi3TzMz4RFD515F -G3bIQQwcP3SOF0zlkGhiCBQ1kOHHFFlXaEBQIQnCwv9QF1LxPZ.A4jR5cyQs -vbvHMJsLll01We+rE2LazX6zYmCraRrsPFwKg1ANBZFY.IAihr8Ox.aH0oAL -hB8nQVw0FSJiZeunOykbT6t3r.NP8.iL+bnwNiXuVMNJH9H9YCm89CFXPBER -bz422p8.O4dg6kRxdyjDqRwMIHTbT3QFLskxJ8tbmQK4tm0XGeZWF7wKKtYY -aTAF.XPNFaaQBinQMJ4QLF0aNHF0JtYuHSxoUZfZY6.UU2ejJTb8lQw8Fo5k -Rv6e2PI+fOM71o2ecY1VgTYdCSxxUqLokuYq9jYJi6lxPgD2NIPePLB0mwbG -YA9Rgxdiu1k5xiLlSU6JVnx6wzg3sYHwTesB8Z5D7RiGZpXyvDNJY.DQX3.H -hvmcUN4bP1yCkhpTle2P37jtBsKrLWcMScEmltOPv22ZfAqQAdKr9HzATQwZ -q18PrUGt6Tst2XMCRUfGuhXs6ccn23YloomMqcTiC5iMGPsHsHRWhWFlaenV -XcqwgCQiGGJzptyS2ZMODBz6fGza0bzmXBj7+DA94bvpR01MffAlueO7HwcI -pWCwmzJdvi9ILgflLAFmyXB6O7ML0YbD26lenmcGxjVsZUN+A6pUK7AtTrPg -M+eRYG0qD9j4I7eEbco8Xh6WcO.or9XDC6UCiewbXHkh6xm5LiPEkzpJDRTu -mEB44Fgz4NCtJvX.SM1vo2SlTCZGAe7GZu6ahdRyzFOhYZ+mbVVSYptBw.K1 -tboIkatIA7c1cTKD1u.honLYV04VkluHsXe0szv9pQCE9Ro3jaVB1o15pz2X -zYoBvO5KXCAe0LCYJybE8ZODf4fV8t9qW0zYxq.YJfTosj1bv0xc.SaC0+AV -9V9L.KKyV3SyTcRtmzi6rO.O16USvts4B5xe9EymDvebK0eMfW6+NIsNlE2m -eqRyJ0utRq13+RjmqYKN1e.4d61jjdsauXe3.2p6jgi9hsNIv97CoyJ01xzl -c3ZhUCtSHx3UZgjoEJYqNY+hYs5zZQVFW19L3JDYaTlMLqAAt1G2yXlnFg9a -53L1FJVcv.cOX0dh7mCVGCLce7GFcQwDdH5Ta3nyAS0pQbHxegr+tGIZORgM -RnMj5vGl1Fs16drnk7Tf1XOLgv1n0d2iEsCxR.eQsNOZ4FGF7whofgfI3kES -1kCeOX5L2rifbdu0A9ae2X.V33B1Z+.Bj1FrP5iFrCYCG5EUWSG.hhunHJd. -HJ5hhnng3h9HPj4lud02.1bxGw. ------------end_max5_patcher----------- - -*/ diff --git a/build/shared/examples/04.Communication/Graph/Graph.txt b/build/shared/examples/04.Communication/Graph/Graph.txt deleted file mode 100644 index 9ca77a31a..000000000 --- a/build/shared/examples/04.Communication/Graph/Graph.txt +++ /dev/null @@ -1 +0,0 @@ -Send data to the computer and graph it in Processing.
\ No newline at end of file diff --git a/build/shared/examples/04.Communication/Graph/layout.png b/build/shared/examples/04.Communication/Graph/layout.png Binary files differdeleted file mode 100644 index 8486b2afc..000000000 --- a/build/shared/examples/04.Communication/Graph/layout.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/Graph/schematic.png b/build/shared/examples/04.Communication/Graph/schematic.png Binary files differdeleted file mode 100644 index 2529acd32..000000000 --- a/build/shared/examples/04.Communication/Graph/schematic.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/Midi/MIDI.txt b/build/shared/examples/04.Communication/Midi/MIDI.txt deleted file mode 100644 index 6c4bb5e66..000000000 --- a/build/shared/examples/04.Communication/Midi/MIDI.txt +++ /dev/null @@ -1 +0,0 @@ -Send MIDI note messages serially.
\ No newline at end of file diff --git a/build/shared/examples/04.Communication/Midi/Midi.ino b/build/shared/examples/04.Communication/Midi/Midi.ino deleted file mode 100644 index 5ef34062c..000000000 --- a/build/shared/examples/04.Communication/Midi/Midi.ino +++ /dev/null @@ -1,46 +0,0 @@ -/* - MIDI note player - - This sketch shows how to use the serial transmit pin (pin 1) to send MIDI note data. - If this circuit is connected to a MIDI synth, it will play the notes - F#-0 (0x1E) to F#-5 (0x5A) in sequence. - - The circuit: - - digital in 1 connected to MIDI jack pin 5 - - MIDI jack pin 2 connected to ground - - MIDI jack pin 4 connected to +5V through 220 ohm resistor - - Attach a MIDI cable to the jack, then to a MIDI synth, and play music. - - created 13 Jun 2006 - modified 13 Aug 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Midi -*/ - -void setup() { - // Set MIDI baud rate: - Serial.begin(31250); -} - -void loop() { - // play notes from F#-0 (0x1E) to F#-5 (0x5A): - for (int note = 0x1E; note < 0x5A; note ++) { - //Note on channel 1 (0x90), some note value (note), middle velocity (0x45): - noteOn(0x90, note, 0x45); - delay(100); - //Note on channel 1 (0x90), some note value (note), silent velocity (0x00): - noteOn(0x90, note, 0x00); - delay(100); - } -} - -// plays a MIDI note. Doesn't check to see that cmd is greater than 127, or that -// data values are less than 127: -void noteOn(int cmd, int pitch, int velocity) { - Serial.write(cmd); - Serial.write(pitch); - Serial.write(velocity); -} diff --git a/build/shared/examples/04.Communication/Midi/layout.png b/build/shared/examples/04.Communication/Midi/layout.png Binary files differdeleted file mode 100644 index 5fa9bd5f6..000000000 --- a/build/shared/examples/04.Communication/Midi/layout.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/Midi/schematic.png b/build/shared/examples/04.Communication/Midi/schematic.png Binary files differdeleted file mode 100644 index aebd8b28b..000000000 --- a/build/shared/examples/04.Communication/Midi/schematic.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/MultiSerial/MultiSerial.ino b/build/shared/examples/04.Communication/MultiSerial/MultiSerial.ino deleted file mode 100644 index d356f51b8..000000000 --- a/build/shared/examples/04.Communication/MultiSerial/MultiSerial.ino +++ /dev/null @@ -1,41 +0,0 @@ -/* - Multiple Serial test - - Receives from the main serial port, sends to the others. - Receives from serial port 1, sends to the main serial (Serial 0). - - This example works only with boards with more than one serial like Arduino Mega, Due, Zero etc. - - The circuit: - - any serial device attached to Serial port 1 - - Serial Monitor open on Serial port 0 - - created 30 Dec 2008 - modified 20 May 2012 - by Tom Igoe & Jed Roach - modified 27 Nov 2015 - by Arturo Guadalupi - - This example code is in the public domain. -*/ - - -void setup() { - // initialize both serial ports: - Serial.begin(9600); - Serial1.begin(9600); -} - -void loop() { - // read from port 1, send to port 0: - if (Serial1.available()) { - int inByte = Serial1.read(); - Serial.write(inByte); - } - - // read from port 0, send to port 1: - if (Serial.available()) { - int inByte = Serial.read(); - Serial1.write(inByte); - } -} diff --git a/build/shared/examples/04.Communication/MultiSerial/MultiSerial.txt b/build/shared/examples/04.Communication/MultiSerial/MultiSerial.txt deleted file mode 100644 index 39f321bf9..000000000 --- a/build/shared/examples/04.Communication/MultiSerial/MultiSerial.txt +++ /dev/null @@ -1 +0,0 @@ -Use two of the serial ports available on the Arduino board. diff --git a/build/shared/examples/04.Communication/PhysicalPixel/PhysicalPixel.ino b/build/shared/examples/04.Communication/PhysicalPixel/PhysicalPixel.ino deleted file mode 100644 index 4831fd228..000000000 --- a/build/shared/examples/04.Communication/PhysicalPixel/PhysicalPixel.ino +++ /dev/null @@ -1,161 +0,0 @@ -/* - Physical Pixel - - An example of using the Arduino board to receive data from the computer. In - this case, the Arduino boards turns on an LED when it receives the character - 'H', and turns off the LED when it receives the character 'L'. - - The data can be sent from the Arduino Serial Monitor, or another program like - Processing (see code below), Flash (via a serial-net proxy), PD, or Max/MSP. - - The circuit: - - LED connected from digital pin 13 to ground - - created 2006 - by David A. Mellis - modified 30 Aug 2011 - by Tom Igoe and Scott Fitzgerald - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/PhysicalPixel -*/ - -const int ledPin = 13; // the pin that the LED is attached to -int incomingByte; // a variable to read incoming serial data into - -void setup() { - // initialize serial communication: - Serial.begin(9600); - // initialize the LED pin as an output: - pinMode(ledPin, OUTPUT); -} - -void loop() { - // see if there's incoming serial data: - if (Serial.available() > 0) { - // read the oldest byte in the serial buffer: - incomingByte = Serial.read(); - // if it's a capital H (ASCII 72), turn on the LED: - if (incomingByte == 'H') { - digitalWrite(ledPin, HIGH); - } - // if it's an L (ASCII 76) turn off the LED: - if (incomingByte == 'L') { - digitalWrite(ledPin, LOW); - } - } -} - -/* Processing code for this example - - // Mouse over serial - - // Demonstrates how to send data to the Arduino I/O board, in order to turn ON - // a light if the mouse is over a square and turn it off if the mouse is not. - - // created 2003-4 - // based on examples by Casey Reas and Hernando Barragan - // modified 30 Aug 2011 - // by Tom Igoe - // This example code is in the public domain. - - import processing.serial.*; - - float boxX; - float boxY; - int boxSize = 20; - boolean mouseOverBox = false; - - Serial port; - - void setup() { - size(200, 200); - boxX = width / 2.0; - boxY = height / 2.0; - rectMode(RADIUS); - - // List all the available serial ports in the output pane. - // You will need to choose the port that the Arduino board is connected to - // from this list. The first port in the list is port #0 and the third port - // in the list is port #2. - // if using Processing 2.1 or later, use Serial.printArray() - println(Serial.list()); - - // Open the port that the Arduino board is connected to (in this case #0) - // Make sure to open the port at the same speed Arduino is using (9600bps) - port = new Serial(this, Serial.list()[0], 9600); - } - - void draw() { - background(0); - - // Test if the cursor is over the box - if (mouseX > boxX - boxSize && mouseX < boxX + boxSize && - mouseY > boxY - boxSize && mouseY < boxY + boxSize) { - mouseOverBox = true; - // draw a line around the box and change its color: - stroke(255); - fill(153); - // send an 'H' to indicate mouse is over square: - port.write('H'); - } - else { - // return the box to its inactive state: - stroke(153); - fill(153); - // send an 'L' to turn the LED off: - port.write('L'); - mouseOverBox = false; - } - - // Draw the box - rect(boxX, boxY, boxSize, boxSize); - } - -*/ - -/* Max/MSP version 5 patch to run with this example: - -----------begin_max5_patcher---------- -1672.3oc2ZszaaiCD9ryuBBebQVCQRYao8xhf1cQCPVfBzh8RRQ.sDsM2HSZ -HQmlzh9eu7gjsjsEk7y0oWjiHoHm4aluYHGlueUmtiDuPy5B9Cv8fNc99Uc5 -XZR2Pm726zcF4knDRlYXciDylQ4xtWa6SReQZZ+iSeMiEQR.ej8BM4A9C7OO -kkAlSjQSAYTdbFfvA27o2c6sfO.Doqd6NfXgDHmRUCKkolg4hT06BfbQJGH3 -5Qd2e8d.QJIQSow5tzebZ7BFW.FIHow8.2JAQpVIIYByxo9KIMkSjL9D0BRT -sbGHZJIkDoZOSMuQT.8YZ5qpgGI3locF4IpQRzq2nDF+odZMIJkRjpEF44M3 -A9nWAum7LKFbSOv+PSRXYOvmIhYiYpg.8A2LOUOxPyH+TjPJA+MS9sIzTRRr -QP9rXF31IBZAHpVHkHrfaPRHLuUCzoj9GSoQRqIB52y6Z.tu8o4EX+fddfuj -+MrXiwPL5+9cXwrOVvkbxLpomazHbQO7EyX7DpzXYgkFdF6algCQpkX4XUlo -hA6oa7GWck9w0Gnmy6RXQOoQeCfWwlzsdnHLTq8n9PCHLv7Cxa6PAN3RCKjh -ISRVZ+sSl704Tqt0kocE9R8J+P+RJOZ4ysp6gN0vppBbOTEN8qp0YCq5bq47 -PUwfA5e766z7NbGMuncw7VgNRSyQhbnPMGrDsGaFSvKM5NcWoIVdZn44.eOi -9DTRUT.7jDQzSTiF4UzXLc7tLGh4T9pwaFQkGUGIiOOkpBSJUwGsBd40krHQ -9XEvwq2V6eLIhV6GuzP7uzzXBmzsXPSRYwBtVLp7s5lKVv6UN2VW7xRtYDbx -7s7wRgHYDI8YVFaTBshkP49R3rYpH3RlUhTQmK5jMadJyF3cYaTNQMGSyhRE -IIUlJaOOukdhoOyhnekEKmZlqU3UkLrk7bpPrpztKBVUR1uorLddk6xIOqNt -lBOroRrNVFJGLrDxudpET4kzkstNp2lzuUHVMgk5TDZx9GWumnoQTbhXsEtF -tzCcM+z0QKXsngCUtTOEIN0SX2iHTTIIz968.Kf.uhfzUCUuAd3UKd.OKt.N -HTynxTQyjpQD9jlwEXeKQxfHCBahUge6RprSa2V4m3aYOMyaP6gah2Yf1zbD -jVwZVGFZHHxINFxpjr5CiTS9JiZn6e6nTlXQZTAFj6QCppQwzL0AxVtoi6WE -QXsANkEGWMEuwNvhmKTnat7A9RqLq6pXuEwY6xM5xRraoTiurj51J1vKLzFs -CvM7HI14Mpje6YRxHOSieTsJpvJORjxT1nERK6s7YTN7sr6rylNwf5zMiHI4 -meZ4rTYt2PpVettZERbjJ6PjfqN2loPSrUcusH01CegsGEE5467rnCdqT1ES -QxtCvFq.cvGz+BaAHXKzRSfP+2Jf.KCvj5ZLJRAhwi+SWHvPyN3vXiaPn6JR -3eoA.0TkFhTvpsDMIrL20nAkCI4EoYfSHAuiPBdmJRyd.IynYYjIzMvjOTKf -3DLvnvRLDLpWeEOYXMfAZqfQ0.qsnlUdmA33t8CNJ7MZEb.u7fiZHLYzDkJp -R7CqEVLGN75U+1JXxFUY.xEEBcRCqhOEkz2bENEWnh4pbh0wY25EefbD6EmW -UA6Ip8wFLyuFXx+Wrp8m6iff1B86W7bqJO9+mx8er4E3.abCLrYdA16sBuHx -vKT6BlpIGQIhL55W7oicf3ayv3ixQCm4aQuY1HZUPQWY+cASx2WZ3f1fICuz -vj5R5ZbM1y8gXYN4dIXaYGq4NhQvS5MmcDADy+S.j8CQ78vk7Q7gtPDX3kFh -3NGaAsYBUAO.8N1U4WKycxbQdrWxJdXd10gNIO+hkUMmm.CZwknu7JbNUYUq -0sOsTsI1QudDtjw0t+xZ85wWZd80tMCiiMADNX4UzrcSeK23su87IANqmA7j -tiRzoXi2YRh67ldAk79gPmTe3YKuoY0qdEDV3X8xylCJMTN45JIakB7uY8XW -uVr3PO8wWwEoTW8lsfraX7ZqzZDDXCRqNkztHsGCYpIDDAOqxDpMVUMKcOrp -942acPvx2NPocMC1wQZ8glRn3myTykVaEUNLoEeJjVaAevA4EAZnsNgkeyO+ -3rEZB7f0DTazDcQTNmdt8aACGi1QOWnMmd+.6YjMHH19OB5gKsMF877x8wsJ -hN97JSnSfLUXGUoj6ujWXd6Pk1SAC+Pkogm.tZ.1lX1qL.pe6PE11DPeMMZ2 -.P0K+3peBt3NskC ------------end_max5_patcher----------- - -*/ diff --git a/build/shared/examples/04.Communication/PhysicalPixel/PhysicalPixel.txt b/build/shared/examples/04.Communication/PhysicalPixel/PhysicalPixel.txt deleted file mode 100644 index ad6c2991e..000000000 --- a/build/shared/examples/04.Communication/PhysicalPixel/PhysicalPixel.txt +++ /dev/null @@ -1 +0,0 @@ -Turn a LED on and off by sending data to your Arduino from Processing or Max/MSP.
\ No newline at end of file diff --git a/build/shared/examples/04.Communication/PhysicalPixel/layout.png b/build/shared/examples/04.Communication/PhysicalPixel/layout.png Binary files differdeleted file mode 100644 index b35c5436a..000000000 --- a/build/shared/examples/04.Communication/PhysicalPixel/layout.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/PhysicalPixel/schematic.png b/build/shared/examples/04.Communication/PhysicalPixel/schematic.png Binary files differdeleted file mode 100644 index ad7848d19..000000000 --- a/build/shared/examples/04.Communication/PhysicalPixel/schematic.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/ReadASCIIString/ReadASCIIString.ino b/build/shared/examples/04.Communication/ReadASCIIString/ReadASCIIString.ino deleted file mode 100644 index ab26c282a..000000000 --- a/build/shared/examples/04.Communication/ReadASCIIString/ReadASCIIString.ino +++ /dev/null @@ -1,67 +0,0 @@ -/* - Reading a serial ASCII-encoded string. - - This sketch demonstrates the Serial parseInt() function. - It looks for an ASCII string of comma-separated values. - It parses them into ints, and uses those to fade an RGB LED. - - Circuit: Common-Cathode RGB LED wired like so: - - red anode: digital pin 3 - - green anode: digital pin 5 - - blue anode: digital pin 6 - - cathode: GND - - created 13 Apr 2012 - by Tom Igoe - modified 14 Mar 2016 - by Arturo Guadalupi - - This example code is in the public domain. -*/ - -// pins for the LEDs: -const int redPin = 3; -const int greenPin = 5; -const int bluePin = 6; - -void setup() { - // initialize serial: - Serial.begin(9600); - // make the pins outputs: - pinMode(redPin, OUTPUT); - pinMode(greenPin, OUTPUT); - pinMode(bluePin, OUTPUT); - -} - -void loop() { - // if there's any serial available, read it: - while (Serial.available() > 0) { - - // look for the next valid integer in the incoming serial stream: - int red = Serial.parseInt(); - // do it again: - int green = Serial.parseInt(); - // do it again: - int blue = Serial.parseInt(); - - // look for the newline. That's the end of your sentence: - if (Serial.read() == '\n') { - // constrain the values to 0 - 255 and invert - // if you're using a common-cathode LED, just use "constrain(color, 0, 255);" - red = 255 - constrain(red, 0, 255); - green = 255 - constrain(green, 0, 255); - blue = 255 - constrain(blue, 0, 255); - - // fade the red, green, and blue legs of the LED: - analogWrite(redPin, red); - analogWrite(greenPin, green); - analogWrite(bluePin, blue); - - // print the three numbers in one string as hexadecimal: - Serial.print(red, HEX); - Serial.print(green, HEX); - Serial.println(blue, HEX); - } - } -} diff --git a/build/shared/examples/04.Communication/ReadASCIIString/ReadASCIIString.txt b/build/shared/examples/04.Communication/ReadASCIIString/ReadASCIIString.txt deleted file mode 100644 index b2862c9b3..000000000 --- a/build/shared/examples/04.Communication/ReadASCIIString/ReadASCIIString.txt +++ /dev/null @@ -1 +0,0 @@ -Parse a comma-separated string of ints to fade an LED.
\ No newline at end of file diff --git a/build/shared/examples/04.Communication/ReadASCIIString/layout.png b/build/shared/examples/04.Communication/ReadASCIIString/layout.png Binary files differdeleted file mode 100644 index 56d2b70d0..000000000 --- a/build/shared/examples/04.Communication/ReadASCIIString/layout.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/SerialCallResponse/SerialCallResponse.ino b/build/shared/examples/04.Communication/SerialCallResponse/SerialCallResponse.ino deleted file mode 100644 index 880e899e5..000000000 --- a/build/shared/examples/04.Communication/SerialCallResponse/SerialCallResponse.ino +++ /dev/null @@ -1,237 +0,0 @@ -/* - Serial Call and Response - Language: Wiring/Arduino - - This program sends an ASCII A (byte of value 65) on startup and repeats that - until it gets some data in. Then it waits for a byte in the serial port, and - sends three sensor values whenever it gets a byte in. - - The circuit: - - potentiometers attached to analog inputs 0 and 1 - - pushbutton attached to digital I/O 2 - - created 26 Sep 2005 - by Tom Igoe - modified 24 Apr 2012 - by Tom Igoe and Scott Fitzgerald - Thanks to Greg Shakar and Scott Fitzgerald for the improvements - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/SerialCallResponse -*/ - -int firstSensor = 0; // first analog sensor -int secondSensor = 0; // second analog sensor -int thirdSensor = 0; // digital sensor -int inByte = 0; // incoming serial byte - -void setup() { - // start serial port at 9600 bps: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - pinMode(2, INPUT); // digital sensor is on digital pin 2 - establishContact(); // send a byte to establish contact until receiver responds -} - -void loop() { - // if we get a valid byte, read analog ins: - if (Serial.available() > 0) { - // get incoming byte: - inByte = Serial.read(); - // read first analog input, divide by 4 to make the range 0-255: - firstSensor = analogRead(A0) / 4; - // delay 10ms to let the ADC recover: - delay(10); - // read second analog input, divide by 4 to make the range 0-255: - secondSensor = analogRead(1) / 4; - // read switch, map it to 0 or 255L - thirdSensor = map(digitalRead(2), 0, 1, 0, 255); - // send sensor values: - Serial.write(firstSensor); - Serial.write(secondSensor); - Serial.write(thirdSensor); - } -} - -void establishContact() { - while (Serial.available() <= 0) { - Serial.print('A'); // send a capital A - delay(300); - } -} - -/* Processing sketch to run with this example: - - // This example code is in the public domain. - - import processing.serial.*; - - int bgcolor; // Background color - int fgcolor; // Fill color - Serial myPort; // The serial port - int[] serialInArray = new int[3]; // Where we'll put what we receive - int serialCount = 0; // A count of how many bytes we receive - int xpos, ypos; // Starting position of the ball - boolean firstContact = false; // Whether we've heard from the microcontroller - - void setup() { - size(256, 256); // Stage size - noStroke(); // No border on the next thing drawn - - // Set the starting position of the ball (middle of the stage) - xpos = width / 2; - ypos = height / 2; - - // Print a list of the serial ports for debugging purposes - // if using Processing 2.1 or later, use Serial.printArray() - println(Serial.list()); - - // I know that the first port in the serial list on my Mac is always my FTDI - // adaptor, so I open Serial.list()[0]. - // On Windows machines, this generally opens COM1. - // Open whatever port is the one you're using. - String portName = Serial.list()[0]; - myPort = new Serial(this, portName, 9600); - } - - void draw() { - background(bgcolor); - fill(fgcolor); - // Draw the shape - ellipse(xpos, ypos, 20, 20); - } - - void serialEvent(Serial myPort) { - // read a byte from the serial port: - int inByte = myPort.read(); - // if this is the first byte received, and it's an A, clear the serial - // buffer and note that you've had first contact from the microcontroller. - // Otherwise, add the incoming byte to the array: - if (firstContact == false) { - if (inByte == 'A') { - myPort.clear(); // clear the serial port buffer - firstContact = true; // you've had first contact from the microcontroller - myPort.write('A'); // ask for more - } - } - else { - // Add the latest byte from the serial port to array: - serialInArray[serialCount] = inByte; - serialCount++; - - // If we have 3 bytes: - if (serialCount > 2 ) { - xpos = serialInArray[0]; - ypos = serialInArray[1]; - fgcolor = serialInArray[2]; - - // print the values (for debugging purposes only): - println(xpos + "\t" + ypos + "\t" + fgcolor); - - // Send a capital A to request new sensor readings: - myPort.write('A'); - // Reset serialCount: - serialCount = 0; - } - } - } - -*/ - -/* Max/MSP version 5 patch to run with this example: - -----------begin_max5_patcher---------- -3908.3oc6ckziiaiE9b0+J3XjCIXpp.WzZNMURv.jCInQ5fYNjNngrDssRKK -4nkp6JA4+973hrkrsjncKu0SRiXasQ83G+dKj7QV+4qtaxzrOxKlf9Zzuft6 -t+7U2cm7ThSbm936lrL3igIAExaaRJ+CYS+sI2qtTI+ikxSuBMKNojm+N3D4 -Aua5KkPwpuoUAkgKhSm+tbdXo5cQXVOhuGwrohuHD4WT7iXzupen3HY4BuqG -rH0kzrrzxzfkb4kdJONHo9JoUKiSS3kRgjt4jYUk0mkznPJh+CYgHewpSqty -xWVwUh3jIqkEYEfmqQEMr.ETbB+YddQbVZix+tIAqV03z203QDX4ukIKHm6W -ep3T0ovqOUN+435m2Rcx+5U0E+FTzVBh9xOsHXIh5YuADg1x4IYgumG0r3mj -shmFmtJmWvSKCJ0um0WNhOKnJo7c6GmZe8YAg7Ne381Rc2j44wQYoBgn0SJN -c8qCHH1RhQqJi7NRCVsmGt.pGUESCxE31zDdCV.PRyxRZeo0MU.WOHMdYPIu -LVIrT75BMd4p73zxVuHdZ.TFKJByyRRZUTpq77dtRDzZFx+PbT4BYY0DJgaO 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b/build/shared/examples/04.Communication/SerialCallResponse/SerialCallResponse.txt deleted file mode 100644 index 4eae05f9d..000000000 --- a/build/shared/examples/04.Communication/SerialCallResponse/SerialCallResponse.txt +++ /dev/null @@ -1 +0,0 @@ -Send multiple variables using a call-and-response (handshaking) method.
\ No newline at end of file diff --git a/build/shared/examples/04.Communication/SerialCallResponse/layout.png b/build/shared/examples/04.Communication/SerialCallResponse/layout.png Binary files differdeleted file mode 100644 index 336b2dad9..000000000 --- a/build/shared/examples/04.Communication/SerialCallResponse/layout.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/SerialCallResponse/schematic.png b/build/shared/examples/04.Communication/SerialCallResponse/schematic.png Binary files differdeleted file mode 100644 index eacdf44ef..000000000 --- a/build/shared/examples/04.Communication/SerialCallResponse/schematic.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/SerialCallResponseASCII/SerialCallResponseASCII.ino b/build/shared/examples/04.Communication/SerialCallResponseASCII/SerialCallResponseASCII.ino deleted file mode 100644 index 78edcb740..000000000 --- a/build/shared/examples/04.Communication/SerialCallResponseASCII/SerialCallResponseASCII.ino +++ /dev/null @@ -1,223 +0,0 @@ -/* - Serial Call and Response in ASCII - Language: Wiring/Arduino - - This program sends an ASCII A (byte of value 65) on startup and repeats that - until it gets some data in. Then it waits for a byte in the serial port, and - sends three ASCII-encoded, comma-separated sensor values, truncated by a - linefeed and carriage return, whenever it gets a byte in. - - The circuit: - - potentiometers attached to analog inputs 0 and 1 - - pushbutton attached to digital I/O 2 - - created 26 Sep 2005 - by Tom Igoe - modified 24 Apr 2012 - by Tom Igoe and Scott Fitzgerald - Thanks to Greg Shakar and Scott Fitzgerald for the improvements - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/SerialCallResponseASCII -*/ - -int firstSensor = 0; // first analog sensor -int secondSensor = 0; // second analog sensor -int thirdSensor = 0; // digital sensor -int inByte = 0; // incoming serial byte - -void setup() { - // start serial port at 9600 bps and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - - pinMode(2, INPUT); // digital sensor is on digital pin 2 - establishContact(); // send a byte to establish contact until receiver responds -} - -void loop() { - // if we get a valid byte, read analog ins: - if (Serial.available() > 0) { - // get incoming byte: - inByte = Serial.read(); - // read first analog input: - firstSensor = analogRead(A0); - // read second analog input: - secondSensor = analogRead(A1); - // read switch, map it to 0 or 255 - thirdSensor = map(digitalRead(2), 0, 1, 0, 255); - // send sensor values: - Serial.print(firstSensor); - Serial.print(","); - Serial.print(secondSensor); - Serial.print(","); - Serial.println(thirdSensor); - } -} - -void establishContact() { - while (Serial.available() <= 0) { - Serial.println("0,0,0"); // send an initial string - delay(300); - } -} - -/* Processing code to run with this example: - - // This example code is in the public domain. - - import processing.serial.*; // import the Processing serial library - Serial myPort; // The serial port - - float bgcolor; // Background color - float fgcolor; // Fill color - float xpos, ypos; // Starting position of the ball - - void setup() { - size(640, 480); - - // List all the available serial ports - // if using Processing 2.1 or later, use Serial.printArray() - println(Serial.list()); - - // I know that the first port in the serial list on my Mac is always my - // Arduino board, so I open Serial.list()[0]. - // Change the 0 to the appropriate number of the serial port that your - // microcontroller is attached to. - myPort = new Serial(this, Serial.list()[0], 9600); - - // read bytes into a buffer until you get a linefeed (ASCII 10): - myPort.bufferUntil('\n'); - - // draw with smooth edges: - smooth(); - } - - void draw() { - background(bgcolor); - fill(fgcolor); - // Draw the shape - ellipse(xpos, ypos, 20, 20); - } - - // serialEvent method is run automatically by the Processing applet whenever - // the buffer reaches the byte value set in the bufferUntil() - // method in the setup(): - - void serialEvent(Serial myPort) { - // read the serial buffer: - String myString = myPort.readStringUntil('\n'); - // if you got any bytes other than the linefeed: - myString = trim(myString); - - // split the string at the commas and convert the sections into integers: - int sensors[] = int(split(myString, ',')); - - // print out the values you got: - for (int sensorNum = 0; sensorNum < sensors.length; sensorNum++) { - print("Sensor " + sensorNum + ": " + sensors[sensorNum] + "\t"); - } - // add a linefeed after all the sensor values are printed: - println(); - if (sensors.length > 1) { - xpos = map(sensors[0], 0, 1023, 0, width); - ypos = map(sensors[1], 0, 1023, 0, height); - fgcolor = sensors[2]; - } - // send a byte to ask for more data: - myPort.write("A"); - } - -*/ - -/* Max/MSP version 5 patch to run with this example: - -----------begin_max5_patcher---------- 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-SAf5XQxSrCa5l0qk45k5kAzqEgMNgzkz9FmL5abpnu4IhNzZ+0s+OKCSg0. ------------end_max5_patcher----------- - -*/ diff --git a/build/shared/examples/04.Communication/SerialCallResponseASCII/SerialCallResponseASCII.txt b/build/shared/examples/04.Communication/SerialCallResponseASCII/SerialCallResponseASCII.txt deleted file mode 100644 index e86764500..000000000 --- a/build/shared/examples/04.Communication/SerialCallResponseASCII/SerialCallResponseASCII.txt +++ /dev/null @@ -1 +0,0 @@ -Send multiple variables using a call-and-response (handshaking) method, and ASCII-encode the values before sending.
\ No newline at end of file diff --git a/build/shared/examples/04.Communication/SerialCallResponseASCII/layout.png b/build/shared/examples/04.Communication/SerialCallResponseASCII/layout.png Binary files differdeleted file mode 100644 index 336b2dad9..000000000 --- a/build/shared/examples/04.Communication/SerialCallResponseASCII/layout.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/SerialCallResponseASCII/schematic.png b/build/shared/examples/04.Communication/SerialCallResponseASCII/schematic.png Binary files differdeleted file mode 100644 index eacdf44ef..000000000 --- a/build/shared/examples/04.Communication/SerialCallResponseASCII/schematic.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/SerialEvent/SerialEvent.ino b/build/shared/examples/04.Communication/SerialEvent/SerialEvent.ino deleted file mode 100644 index 1ec4049e3..000000000 --- a/build/shared/examples/04.Communication/SerialEvent/SerialEvent.ino +++ /dev/null @@ -1,58 +0,0 @@ -/* - Serial Event example - - When new serial data arrives, this sketch adds it to a String. - When a newline is received, the loop prints the string and clears it. - - A good test for this is to try it with a GPS receiver that sends out - NMEA 0183 sentences. - - NOTE: The serialEvent() feature is not available on the Leonardo, Micro, or - other ATmega32U4 based boards. - - created 9 May 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/SerialEvent -*/ - -String inputString = ""; // a String to hold incoming data -bool stringComplete = false; // whether the string is complete - -void setup() { - // initialize serial: - Serial.begin(9600); - // reserve 200 bytes for the inputString: - inputString.reserve(200); -} - -void loop() { - // print the string when a newline arrives: - if (stringComplete) { - Serial.println(inputString); - // clear the string: - inputString = ""; - stringComplete = false; - } -} - -/* - SerialEvent occurs whenever a new data comes in the hardware serial RX. This - routine is run between each time loop() runs, so using delay inside loop can - delay response. Multiple bytes of data may be available. -*/ -void serialEvent() { - while (Serial.available()) { - // get the new byte: - char inChar = (char)Serial.read(); - // add it to the inputString: - inputString += inChar; - // if the incoming character is a newline, set a flag so the main loop can - // do something about it: - if (inChar == '\n') { - stringComplete = true; - } - } -} diff --git a/build/shared/examples/04.Communication/SerialEvent/SerialEvent.txt b/build/shared/examples/04.Communication/SerialEvent/SerialEvent.txt deleted file mode 100644 index c02db65b4..000000000 --- a/build/shared/examples/04.Communication/SerialEvent/SerialEvent.txt +++ /dev/null @@ -1 +0,0 @@ -Demonstrates the use of SerialEvent().
\ No newline at end of file diff --git a/build/shared/examples/04.Communication/SerialPassthrough/SerialPassthrough.ino b/build/shared/examples/04.Communication/SerialPassthrough/SerialPassthrough.ino deleted file mode 100644 index 81037ebdc..000000000 --- a/build/shared/examples/04.Communication/SerialPassthrough/SerialPassthrough.ino +++ /dev/null @@ -1,38 +0,0 @@ -/* - SerialPassthrough sketch - - Some boards, like the Arduino 101, the MKR1000, Zero, or the Micro, have one - hardware serial port attached to Digital pins 0-1, and a separate USB serial - port attached to the IDE Serial Monitor. This means that the "serial - passthrough" which is possible with the Arduino UNO (commonly used to interact - with devices/shields that require configuration via serial AT commands) will - not work by default. - - This sketch allows you to emulate the serial passthrough behaviour. Any text - you type in the IDE Serial monitor will be written out to the serial port on - Digital pins 0 and 1, and vice-versa. - - On the 101, MKR1000, Zero, and Micro, "Serial" refers to the USB Serial port - attached to the Serial Monitor, and "Serial1" refers to the hardware serial - port attached to pins 0 and 1. This sketch will emulate Serial passthrough - using those two Serial ports on the boards mentioned above, but you can change - these names to connect any two serial ports on a board that has multiple ports. - - created 23 May 2016 - by Erik Nyquist -*/ - -void setup() { - Serial.begin(9600); - Serial1.begin(9600); -} - -void loop() { - if (Serial.available()) { // If anything comes in Serial (USB), - Serial1.write(Serial.read()); // read it and send it out Serial1 (pins 0 & 1) - } - - if (Serial1.available()) { // If anything comes in Serial1 (pins 0 & 1) - Serial.write(Serial1.read()); // read it and send it out Serial (USB) - } -} diff --git a/build/shared/examples/04.Communication/VirtualColorMixer/VirtualColorMixer.ino b/build/shared/examples/04.Communication/VirtualColorMixer/VirtualColorMixer.ino deleted file mode 100644 index 4124074ec..000000000 --- a/build/shared/examples/04.Communication/VirtualColorMixer/VirtualColorMixer.ino +++ /dev/null @@ -1,129 +0,0 @@ -/* - This example reads three analog sensors (potentiometers are easiest) and sends - their values serially. The Processing and Max/MSP programs at the bottom take - those three values and use them to change the background color of the screen. - - The circuit: - - potentiometers attached to analog inputs 0, 1, and 2 - - created 2 Dec 2006 - by David A. Mellis - modified 30 Aug 2011 - by Tom Igoe and Scott Fitzgerald - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/VirtualColorMixer -*/ - -const int redPin = A0; // sensor to control red color -const int greenPin = A1; // sensor to control green color -const int bluePin = A2; // sensor to control blue color - -void setup() { - Serial.begin(9600); -} - -void loop() { - Serial.print(analogRead(redPin)); - Serial.print(","); - Serial.print(analogRead(greenPin)); - Serial.print(","); - Serial.println(analogRead(bluePin)); -} - -/* Processing code for this example - - // This example code is in the public domain. - - import processing.serial.*; - - float redValue = 0; // red value - float greenValue = 0; // green value - float blueValue = 0; // blue value - - Serial myPort; - - void setup() { - size(200, 200); - - // List all the available serial ports - // if using Processing 2.1 or later, use Serial.printArray() - println(Serial.list()); - - // I know that the first port in the serial list on my Mac is always my - // Arduino, so I open Serial.list()[0]. - // Open whatever port is the one you're using. - myPort = new Serial(this, Serial.list()[0], 9600); - // don't generate a serialEvent() unless you get a newline character: - myPort.bufferUntil('\n'); - } - - void draw() { - // set the background color with the color values: - background(redValue, greenValue, blueValue); - } - - void serialEvent(Serial myPort) { - // get the ASCII string: - String inString = myPort.readStringUntil('\n'); - - if (inString != null) { - // trim off any whitespace: - inString = trim(inString); - // split the string on the commas and convert the resulting substrings - // into an integer array: - float[] colors = float(split(inString, ",")); - // if the array has at least three elements, you know you got the whole - // thing. Put the numbers in the color variables: - if (colors.length >= 3) { - // map them to the range 0-255: - redValue = map(colors[0], 0, 1023, 0, 255); - greenValue = map(colors[1], 0, 1023, 0, 255); - blueValue = map(colors[2], 0, 1023, 0, 255); - } - } - } - -*/ - -/* Max/MSP patch for this example - - ----------begin_max5_patcher---------- -1512.3oc4Z00aaaCE8YmeED9ktB35xOjrj1aAsXX4g8xZQeYoXfVh1gqRjdT -TsIsn+2K+PJUovVVJ1VMdCAvxThV7bO7b48dIyWtXxzkxaYkSA+J3u.Sl7kK -lLwcK6MlT2dxzB5so4zRW2lJXeRt7elNy+HM6Vs61uDDzbOYkNmo02sg4euS -4BSede8S2P0o2vEq+aEKU66PPP7b3LPHDauPvyCmAvv4v6+M7L2XXF2WfCaF -lURgVPKbCxzKUbZdySDUEbgABN.ia08R9mccGYGn66qGutNir27qWbg8iY+7 -HDRx.Hjf+OPHCQgPdpQHoxhBlwB+QF4cbkthlCRk4REnfeKScs3ZwaugWBbj -.PS+.qDPAkZkgPlY5oPS4By2A5aTLFv9pounjsgpnZVF3x27pqtBrRpJnZaa -C3WxTkfUJYA.BzR.BhIy.ehquw7dSoJCsrlATLckR.nhLPNWvVwL+Vp1LHL. -SjMG.tRaG7OxT5R2c8Hx9B8.wLCxVaGI6qnpj45Ug84kL+6YIM8CqUxJyycF -7bqsBRULGvwfWyRMyovElat7NvqoejaLm4f+fkmyKuVTHy3q3ldhB.WtQY6Z -x0BSOeSpTqA+FW+Yy3SyybH3sFy8p0RVCmaMpTyX6HdDZ2JsPbfSogbBMueH -JLd6RMBdfRMzPjZvimuWIK2XgFA.ZmtfKoh0Sm88qc6OF4bDQ3P6kEtF6xej -.OkjD4H5OllyS+.3FlhY0so4xRlWqyrXErQpt+2rsnXgQNZHZgmMVzEofW7T -S4zORQtgIdDbRHrObRzSMNofUVZVcbKbhQZrSOo934TqRHIN2ncr7BF8TKR1 -tHDqL.PejLRRPKMR.pKFAkbtDa+UOvsYsIFH0DYsTCjqZ66T1CmGeDILLpSm -myk0SdkOKh5LUr4GbWwRYdW7fm.BvDmzHnSdH3biGpSbxxDNJoGDAD1ChH7L -I0DaloOTBLvkO7zPs5HJnKNoGAXbol5eytUhfyiSfnjE1uAq+Fp0a+wygGwR -q3ZI8.psJpkpJnyPzwmXBj7Sh.+bNvVZxlcKAm0OYHIxcIjzEKdRChgO5UMf -LkMPNN0MfiS7Ev6TYQct.F5IWcCZ4504rGsiVswGWWSYyma01QcZgmL+f+sf -oU18Hn6o6dXkMkFF14TL9rIAWE+6wvGV.p.TPqz3HK5L+VxYxl4UmBKEjr.B -6zinuKI3C+D2Y7azIM6N7QL6t+jQyZxymK1ToAKqVsxjlGyjz2c1kTK3180h -kJEYkacWpv6lyp2VJTjWK47wHA6fyBOWxH9pUf6jUtZkLpNKW.9EeUBH3ymY -XSQlaqGrkQMGzp20adYSmIOGjIABo1xZyAWJtCX9tg6+HMuhMCPyx76ao+Us -UxmzUE79H8d2ZB1m1ztbnOa1mGeAq0awyK8a9UqBUc6pZolpzurTK232e5gp -aInVw8QIIcpaiNSJfY4Z+92Cs+Mc+mgg2cEsvGlLY6V+1kMuioxnB5VM+fsY -9vSu4WI1PMBGXye6KXvNuzmZTh7U9h5j6vvASdngPdgOFxycNL6ia1axUMmT -JIzebXcQCn3SKMf+4QCMmOZung+6xBCPLfwO8ngcEI52YJ1y7mx3CN9xKUYU -bg7Y1yXjlKW6SrZnguQdsSfOSSDItqv2jwJFjavc1vO7OigyBr2+gDYorRk1 -HXZpVFfu2FxXkZtfp4RQqNkX5y2sya3YYL2iavWAOaizH+pw.Ibg8f1I9h3Z -2B79sNeOHvBOtfEalWsvyu0KMf015.AaROvZ7vv5AhnndfHLbTgjcCK1KlHv -gOk5B26OqrXjcJ005.QqCHn8fVTxnxfj93SfQiJlv8YV0VT9fVUwOOhSV3uD -eeqCUClbBPa.j3vWDoMZssNTzRNEnE6gYPXazZaMF921syaLWyAeBXvCESA8 -ASi6Zyw8.RQi65J8ZsNx3ho93OhGWENtWpowepae4YhCFeLErOLENtXJrOSc -iadi39rf4hwc8xdhHz3gn3dBI7iDRlFe8huAfIZhq ------------end_max5_patcher----------- - -*/ diff --git a/build/shared/examples/04.Communication/VirtualColorMixer/VirtualColorMixer.txt b/build/shared/examples/04.Communication/VirtualColorMixer/VirtualColorMixer.txt deleted file mode 100644 index e7d85c113..000000000 --- a/build/shared/examples/04.Communication/VirtualColorMixer/VirtualColorMixer.txt +++ /dev/null @@ -1 +0,0 @@ -Send multiple variables from Arduino to your computer and read them in Processing or Max/MSP.
\ No newline at end of file diff --git a/build/shared/examples/04.Communication/VirtualColorMixer/layout.png b/build/shared/examples/04.Communication/VirtualColorMixer/layout.png Binary files differdeleted file mode 100644 index cb5b7280c..000000000 --- a/build/shared/examples/04.Communication/VirtualColorMixer/layout.png +++ /dev/null diff --git a/build/shared/examples/04.Communication/VirtualColorMixer/schematic.png b/build/shared/examples/04.Communication/VirtualColorMixer/schematic.png Binary files differdeleted file mode 100644 index acf35b32e..000000000 --- a/build/shared/examples/04.Communication/VirtualColorMixer/schematic.png +++ /dev/null diff --git a/build/shared/examples/05.Control/Arrays/Arrays.ino b/build/shared/examples/05.Control/Arrays/Arrays.ino deleted file mode 100644 index 549ac3463..000000000 --- a/build/shared/examples/05.Control/Arrays/Arrays.ino +++ /dev/null @@ -1,56 +0,0 @@ -/* - Arrays - - Demonstrates the use of an array to hold pin numbers in order to iterate over - the pins in a sequence. Lights multiple LEDs in sequence, then in reverse. - - Unlike the For Loop tutorial, where the pins have to be contiguous, here the - pins can be in any random order. - - The circuit: - - LEDs from pins 2 through 7 to ground - - created 2006 - by David A. Mellis - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Array -*/ - -int timer = 100; // The higher the number, the slower the timing. -int ledPins[] = { - 2, 7, 4, 6, 5, 3 -}; // an array of pin numbers to which LEDs are attached -int pinCount = 6; // the number of pins (i.e. the length of the array) - -void setup() { - // the array elements are numbered from 0 to (pinCount - 1). - // use a for loop to initialize each pin as an output: - for (int thisPin = 0; thisPin < pinCount; thisPin++) { - pinMode(ledPins[thisPin], OUTPUT); - } -} - -void loop() { - // loop from the lowest pin to the highest: - for (int thisPin = 0; thisPin < pinCount; thisPin++) { - // turn the pin on: - digitalWrite(ledPins[thisPin], HIGH); - delay(timer); - // turn the pin off: - digitalWrite(ledPins[thisPin], LOW); - - } - - // loop from the highest pin to the lowest: - for (int thisPin = pinCount - 1; thisPin >= 0; thisPin--) { - // turn the pin on: - digitalWrite(ledPins[thisPin], HIGH); - delay(timer); - // turn the pin off: - digitalWrite(ledPins[thisPin], LOW); - } -} diff --git a/build/shared/examples/05.Control/Arrays/Arrays.txt b/build/shared/examples/05.Control/Arrays/Arrays.txt deleted file mode 100644 index 106d99173..000000000 --- a/build/shared/examples/05.Control/Arrays/Arrays.txt +++ /dev/null @@ -1 +0,0 @@ -A variation on the For Loop example that demonstrates how to use an array.
\ No newline at end of file diff --git a/build/shared/examples/05.Control/Arrays/layout.png b/build/shared/examples/05.Control/Arrays/layout.png Binary files differdeleted file mode 100644 index c2c01516a..000000000 --- a/build/shared/examples/05.Control/Arrays/layout.png +++ /dev/null diff --git a/build/shared/examples/05.Control/Arrays/schematic.png b/build/shared/examples/05.Control/Arrays/schematic.png Binary files differdeleted file mode 100644 index ed9b31502..000000000 --- a/build/shared/examples/05.Control/Arrays/schematic.png +++ /dev/null diff --git a/build/shared/examples/05.Control/ForLoopIteration/ForLoopIteration.ino b/build/shared/examples/05.Control/ForLoopIteration/ForLoopIteration.ino deleted file mode 100644 index 54ad38a26..000000000 --- a/build/shared/examples/05.Control/ForLoopIteration/ForLoopIteration.ino +++ /dev/null @@ -1,47 +0,0 @@ -/* - For Loop Iteration - - Demonstrates the use of a for() loop. - Lights multiple LEDs in sequence, then in reverse. - - The circuit: - - LEDs from pins 2 through 7 to ground - - created 2006 - by David A. Mellis - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/ForLoop -*/ - -int timer = 100; // The higher the number, the slower the timing. - -void setup() { - // use a for loop to initialize each pin as an output: - for (int thisPin = 2; thisPin < 8; thisPin++) { - pinMode(thisPin, OUTPUT); - } -} - -void loop() { - // loop from the lowest pin to the highest: - for (int thisPin = 2; thisPin < 8; thisPin++) { - // turn the pin on: - digitalWrite(thisPin, HIGH); - delay(timer); - // turn the pin off: - digitalWrite(thisPin, LOW); - } - - // loop from the highest pin to the lowest: - for (int thisPin = 7; thisPin >= 2; thisPin--) { - // turn the pin on: - digitalWrite(thisPin, HIGH); - delay(timer); - // turn the pin off: - digitalWrite(thisPin, LOW); - } -} diff --git a/build/shared/examples/05.Control/ForLoopIteration/ForLoopIteration.txt b/build/shared/examples/05.Control/ForLoopIteration/ForLoopIteration.txt deleted file mode 100644 index fcc65b42c..000000000 --- a/build/shared/examples/05.Control/ForLoopIteration/ForLoopIteration.txt +++ /dev/null @@ -1 +0,0 @@ -Controlling multiple LEDs with a for loop.
\ No newline at end of file diff --git a/build/shared/examples/05.Control/ForLoopIteration/layout.png b/build/shared/examples/05.Control/ForLoopIteration/layout.png Binary files differdeleted file mode 100644 index c2c01516a..000000000 --- a/build/shared/examples/05.Control/ForLoopIteration/layout.png +++ /dev/null diff --git a/build/shared/examples/05.Control/ForLoopIteration/schematic.png b/build/shared/examples/05.Control/ForLoopIteration/schematic.png Binary files differdeleted file mode 100644 index ed9b31502..000000000 --- a/build/shared/examples/05.Control/ForLoopIteration/schematic.png +++ /dev/null diff --git a/build/shared/examples/05.Control/IfStatementConditional/IfStatementConditional.ino b/build/shared/examples/05.Control/IfStatementConditional/IfStatementConditional.ino deleted file mode 100644 index 4dd40901d..000000000 --- a/build/shared/examples/05.Control/IfStatementConditional/IfStatementConditional.ino +++ /dev/null @@ -1,53 +0,0 @@ -/* - Conditionals - If statement - - This example demonstrates the use of if() statements. - It reads the state of a potentiometer (an analog input) and turns on an LED - only if the potentiometer goes above a certain threshold level. It prints the - analog value regardless of the level. - - The circuit: - - potentiometer - Center pin of the potentiometer goes to analog pin 0. - Side pins of the potentiometer go to +5V and ground. - - LED connected from digital pin 13 to ground - - - Note: On most Arduino boards, there is already an LED on the board connected - to pin 13, so you don't need any extra components for this example. - - created 17 Jan 2009 - modified 9 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/IfStatement -*/ - -// These constants won't change: -const int analogPin = A0; // pin that the sensor is attached to -const int ledPin = 13; // pin that the LED is attached to -const int threshold = 400; // an arbitrary threshold level that's in the range of the analog input - -void setup() { - // initialize the LED pin as an output: - pinMode(ledPin, OUTPUT); - // initialize serial communications: - Serial.begin(9600); -} - -void loop() { - // read the value of the potentiometer: - int analogValue = analogRead(analogPin); - - // if the analog value is high enough, turn on the LED: - if (analogValue > threshold) { - digitalWrite(ledPin, HIGH); - } else { - digitalWrite(ledPin, LOW); - } - - // print the analog value: - Serial.println(analogValue); - delay(1); // delay in between reads for stability -} diff --git a/build/shared/examples/05.Control/IfStatementConditional/IfStatementConditional.txt b/build/shared/examples/05.Control/IfStatementConditional/IfStatementConditional.txt deleted file mode 100644 index e1cdaa8f5..000000000 --- a/build/shared/examples/05.Control/IfStatementConditional/IfStatementConditional.txt +++ /dev/null @@ -1 +0,0 @@ -How to use an if statement to change output conditions based on changing input conditions.
\ No newline at end of file diff --git a/build/shared/examples/05.Control/IfStatementConditional/layout.png b/build/shared/examples/05.Control/IfStatementConditional/layout.png Binary files differdeleted file mode 100644 index 6071705e4..000000000 --- a/build/shared/examples/05.Control/IfStatementConditional/layout.png +++ /dev/null diff --git a/build/shared/examples/05.Control/IfStatementConditional/schematic.png b/build/shared/examples/05.Control/IfStatementConditional/schematic.png Binary files differdeleted file mode 100644 index ea56b636a..000000000 --- a/build/shared/examples/05.Control/IfStatementConditional/schematic.png +++ /dev/null diff --git a/build/shared/examples/05.Control/WhileStatementConditional/WhileStatementConditional.ino b/build/shared/examples/05.Control/WhileStatementConditional/WhileStatementConditional.ino deleted file mode 100644 index 4f1383f5e..000000000 --- a/build/shared/examples/05.Control/WhileStatementConditional/WhileStatementConditional.ino +++ /dev/null @@ -1,87 +0,0 @@ -/* - Conditionals - while statement - - This example demonstrates the use of while() statements. - - While the pushbutton is pressed, the sketch runs the calibration routine. - The sensor readings during the while loop define the minimum and maximum of - expected values from the photoresistor. - - This is a variation on the calibrate example. - - The circuit: - - photoresistor connected from +5V to analog in pin 0 - - 10 kilohm resistor connected from ground to analog in pin 0 - - LED connected from digital pin 9 to ground through 220 ohm resistor - - pushbutton attached from pin 2 to +5V - - 10 kilohm resistor attached from pin 2 to ground - - created 17 Jan 2009 - modified 30 Aug 2011 - by Tom Igoe - modified 20 Jan 2017 - by Arturo Guadalupi - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/WhileLoop -*/ - - -// These constants won't change: -const int sensorPin = A0; // pin that the sensor is attached to -const int ledPin = 9; // pin that the LED is attached to -const int indicatorLedPin = 13; // pin that the built-in LED is attached to -const int buttonPin = 2; // pin that the button is attached to - - -// These variables will change: -int sensorMin = 1023; // minimum sensor value -int sensorMax = 0; // maximum sensor value -int sensorValue = 0; // the sensor value - - -void setup() { - // set the LED pins as outputs and the switch pin as input: - pinMode(indicatorLedPin, OUTPUT); - pinMode(ledPin, OUTPUT); - pinMode(buttonPin, INPUT); -} - -void loop() { - // while the button is pressed, take calibration readings: - while (digitalRead(buttonPin) == HIGH) { - calibrate(); - } - // signal the end of the calibration period - digitalWrite(indicatorLedPin, LOW); - - // read the sensor: - sensorValue = analogRead(sensorPin); - - // apply the calibration to the sensor reading - sensorValue = map(sensorValue, sensorMin, sensorMax, 0, 255); - - // in case the sensor value is outside the range seen during calibration - sensorValue = constrain(sensorValue, 0, 255); - - // fade the LED using the calibrated value: - analogWrite(ledPin, sensorValue); -} - -void calibrate() { - // turn on the indicator LED to indicate that calibration is happening: - digitalWrite(indicatorLedPin, HIGH); - // read the sensor: - sensorValue = analogRead(sensorPin); - - // record the maximum sensor value - if (sensorValue > sensorMax) { - sensorMax = sensorValue; - } - - // record the minimum sensor value - if (sensorValue < sensorMin) { - sensorMin = sensorValue; - } -} diff --git a/build/shared/examples/05.Control/WhileStatementConditional/WhileStatementConditional.txt b/build/shared/examples/05.Control/WhileStatementConditional/WhileStatementConditional.txt deleted file mode 100644 index 233877c59..000000000 --- a/build/shared/examples/05.Control/WhileStatementConditional/WhileStatementConditional.txt +++ /dev/null @@ -1 +0,0 @@ -How to use a while loop to calibrate a sensor while a button is being read.
\ No newline at end of file diff --git a/build/shared/examples/05.Control/WhileStatementConditional/layout.png b/build/shared/examples/05.Control/WhileStatementConditional/layout.png Binary files differdeleted file mode 100644 index 8f9aab85f..000000000 --- a/build/shared/examples/05.Control/WhileStatementConditional/layout.png +++ /dev/null diff --git a/build/shared/examples/05.Control/WhileStatementConditional/schematic.png b/build/shared/examples/05.Control/WhileStatementConditional/schematic.png Binary files differdeleted file mode 100644 index d62dc15bc..000000000 --- a/build/shared/examples/05.Control/WhileStatementConditional/schematic.png +++ /dev/null diff --git a/build/shared/examples/05.Control/switchCase/layout.png b/build/shared/examples/05.Control/switchCase/layout.png Binary files differdeleted file mode 100644 index b7718079c..000000000 --- a/build/shared/examples/05.Control/switchCase/layout.png +++ /dev/null diff --git a/build/shared/examples/05.Control/switchCase/schematic.png b/build/shared/examples/05.Control/switchCase/schematic.png Binary files differdeleted file mode 100644 index bcd0c3dff..000000000 --- a/build/shared/examples/05.Control/switchCase/schematic.png +++ /dev/null diff --git a/build/shared/examples/05.Control/switchCase/switchCase.ino b/build/shared/examples/05.Control/switchCase/switchCase.ino deleted file mode 100644 index c313f6b98..000000000 --- a/build/shared/examples/05.Control/switchCase/switchCase.ino +++ /dev/null @@ -1,56 +0,0 @@ -/* - Switch statement - - Demonstrates the use of a switch statement. The switch statement allows you - to choose from among a set of discrete values of a variable. It's like a - series of if statements. - - To see this sketch in action, put the board and sensor in a well-lit room, - open the Serial Monitor, and move your hand gradually down over the sensor. - - The circuit: - - photoresistor from analog in 0 to +5V - - 10K resistor from analog in 0 to ground - - created 1 Jul 2009 - modified 9 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/SwitchCase -*/ - -// these constants won't change. They are the lowest and highest readings you -// get from your sensor: -const int sensorMin = 0; // sensor minimum, discovered through experiment -const int sensorMax = 600; // sensor maximum, discovered through experiment - -void setup() { - // initialize serial communication: - Serial.begin(9600); -} - -void loop() { - // read the sensor: - int sensorReading = analogRead(A0); - // map the sensor range to a range of four options: - int range = map(sensorReading, sensorMin, sensorMax, 0, 3); - - // do something different depending on the range value: - switch (range) { - case 0: // your hand is on the sensor - Serial.println("dark"); - break; - case 1: // your hand is close to the sensor - Serial.println("dim"); - break; - case 2: // your hand is a few inches from the sensor - Serial.println("medium"); - break; - case 3: // your hand is nowhere near the sensor - Serial.println("bright"); - break; - } - delay(1); // delay in between reads for stability -} diff --git a/build/shared/examples/05.Control/switchCase/switchCase.txt b/build/shared/examples/05.Control/switchCase/switchCase.txt deleted file mode 100644 index 38568a82e..000000000 --- a/build/shared/examples/05.Control/switchCase/switchCase.txt +++ /dev/null @@ -1 +0,0 @@ -How to choose between a discrete number of values.
\ No newline at end of file diff --git a/build/shared/examples/05.Control/switchCase2/layout.png b/build/shared/examples/05.Control/switchCase2/layout.png Binary files differdeleted file mode 100644 index cd9675715..000000000 --- a/build/shared/examples/05.Control/switchCase2/layout.png +++ /dev/null diff --git a/build/shared/examples/05.Control/switchCase2/schematic.png b/build/shared/examples/05.Control/switchCase2/schematic.png Binary files differdeleted file mode 100644 index ed9b31502..000000000 --- a/build/shared/examples/05.Control/switchCase2/schematic.png +++ /dev/null diff --git a/build/shared/examples/05.Control/switchCase2/switchCase2.ino b/build/shared/examples/05.Control/switchCase2/switchCase2.ino deleted file mode 100644 index c30843f73..000000000 --- a/build/shared/examples/05.Control/switchCase2/switchCase2.ino +++ /dev/null @@ -1,65 +0,0 @@ -/* - Switch statement with serial input - - Demonstrates the use of a switch statement. The switch statement allows you - to choose from among a set of discrete values of a variable. It's like a - series of if statements. - - To see this sketch in action, open the Serial monitor and send any character. - The characters a, b, c, d, and e, will turn on LEDs. Any other character will - turn the LEDs off. - - The circuit: - - five LEDs attached to digital pins 2 through 6 through 220 ohm resistors - - created 1 Jul 2009 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/SwitchCase2 -*/ - -void setup() { - // initialize serial communication: - Serial.begin(9600); - // initialize the LED pins: - for (int thisPin = 2; thisPin < 7; thisPin++) { - pinMode(thisPin, OUTPUT); - } -} - -void loop() { - // read the sensor: - if (Serial.available() > 0) { - int inByte = Serial.read(); - // do something different depending on the character received. - // The switch statement expects single number values for each case; in this - // example, though, you're using single quotes to tell the controller to get - // the ASCII value for the character. For example 'a' = 97, 'b' = 98, - // and so forth: - - switch (inByte) { - case 'a': - digitalWrite(2, HIGH); - break; - case 'b': - digitalWrite(3, HIGH); - break; - case 'c': - digitalWrite(4, HIGH); - break; - case 'd': - digitalWrite(5, HIGH); - break; - case 'e': - digitalWrite(6, HIGH); - break; - default: - // turn all the LEDs off: - for (int thisPin = 2; thisPin < 7; thisPin++) { - digitalWrite(thisPin, LOW); - } - } - } -} diff --git a/build/shared/examples/05.Control/switchCase2/switchCase2.txt b/build/shared/examples/05.Control/switchCase2/switchCase2.txt deleted file mode 100644 index fddc826bf..000000000 --- a/build/shared/examples/05.Control/switchCase2/switchCase2.txt +++ /dev/null @@ -1 +0,0 @@ -A second switch-case example, showing how to take different actions based in characters received in the serial port.
\ No newline at end of file diff --git a/build/shared/examples/06.Sensors/ADXL3xx/ADXL3xx.ino b/build/shared/examples/06.Sensors/ADXL3xx/ADXL3xx.ino deleted file mode 100644 index 1cf4be447..000000000 --- a/build/shared/examples/06.Sensors/ADXL3xx/ADXL3xx.ino +++ /dev/null @@ -1,60 +0,0 @@ -/* - ADXL3xx - - Reads an Analog Devices ADXL3xx accelerometer and communicates the - acceleration to the computer. The pins used are designed to be easily - compatible with the breakout boards from SparkFun, available from: - http://www.sparkfun.com/commerce/categories.php?c=80 - - The circuit: - - analog 0: accelerometer self test - - analog 1: z-axis - - analog 2: y-axis - - analog 3: x-axis - - analog 4: ground - - analog 5: vcc - - created 2 Jul 2008 - by David A. Mellis - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/ADXL3xx -*/ - -// these constants describe the pins. They won't change: -const int groundpin = 18; // analog input pin 4 -- ground -const int powerpin = 19; // analog input pin 5 -- voltage -const int xpin = A3; // x-axis of the accelerometer -const int ypin = A2; // y-axis -const int zpin = A1; // z-axis (only on 3-axis models) - -void setup() { - // initialize the serial communications: - Serial.begin(9600); - - // Provide ground and power by using the analog inputs as normal digital pins. - // This makes it possible to directly connect the breakout board to the - // Arduino. If you use the normal 5V and GND pins on the Arduino, - // you can remove these lines. - pinMode(groundpin, OUTPUT); - pinMode(powerpin, OUTPUT); - digitalWrite(groundpin, LOW); - digitalWrite(powerpin, HIGH); -} - -void loop() { - // print the sensor values: - Serial.print(analogRead(xpin)); - // print a tab between values: - Serial.print("\t"); - Serial.print(analogRead(ypin)); - // print a tab between values: - Serial.print("\t"); - Serial.print(analogRead(zpin)); - Serial.println(); - // delay before next reading: - delay(100); -} diff --git a/build/shared/examples/06.Sensors/ADXL3xx/ADXL3xx.txt b/build/shared/examples/06.Sensors/ADXL3xx/ADXL3xx.txt deleted file mode 100644 index a13994aba..000000000 --- a/build/shared/examples/06.Sensors/ADXL3xx/ADXL3xx.txt +++ /dev/null @@ -1 +0,0 @@ -Read an ADXL3xx accelerometer.
\ No newline at end of file diff --git a/build/shared/examples/06.Sensors/ADXL3xx/layout.png b/build/shared/examples/06.Sensors/ADXL3xx/layout.png Binary files differdeleted file mode 100644 index 3e35d533d..000000000 --- a/build/shared/examples/06.Sensors/ADXL3xx/layout.png +++ /dev/null diff --git a/build/shared/examples/06.Sensors/ADXL3xx/schematic.png b/build/shared/examples/06.Sensors/ADXL3xx/schematic.png Binary files differdeleted file mode 100644 index b3081b78c..000000000 --- a/build/shared/examples/06.Sensors/ADXL3xx/schematic.png +++ /dev/null diff --git a/build/shared/examples/06.Sensors/Knock/Knock.ino b/build/shared/examples/06.Sensors/Knock/Knock.ino deleted file mode 100644 index 99b50e4de..000000000 --- a/build/shared/examples/06.Sensors/Knock/Knock.ino +++ /dev/null @@ -1,54 +0,0 @@ -/* - Knock Sensor - - This sketch reads a piezo element to detect a knocking sound. - It reads an analog pin and compares the result to a set threshold. - If the result is greater than the threshold, it writes "knock" to the serial - port, and toggles the LED on pin 13. - - The circuit: - - positive connection of the piezo attached to analog in 0 - - negative connection of the piezo attached to ground - - 1 megohm resistor attached from analog in 0 to ground - - created 25 Mar 2007 - by David Cuartielles <http://www.0j0.org> - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Knock -*/ - - -// these constants won't change: -const int ledPin = 13; // LED connected to digital pin 13 -const int knockSensor = A0; // the piezo is connected to analog pin 0 -const int threshold = 100; // threshold value to decide when the detected sound is a knock or not - - -// these variables will change: -int sensorReading = 0; // variable to store the value read from the sensor pin -int ledState = LOW; // variable used to store the last LED status, to toggle the light - -void setup() { - pinMode(ledPin, OUTPUT); // declare the ledPin as as OUTPUT - Serial.begin(9600); // use the serial port -} - -void loop() { - // read the sensor and store it in the variable sensorReading: - sensorReading = analogRead(knockSensor); - - // if the sensor reading is greater than the threshold: - if (sensorReading >= threshold) { - // toggle the status of the ledPin: - ledState = !ledState; - // update the LED pin itself: - digitalWrite(ledPin, ledState); - // send the string "Knock!" back to the computer, followed by newline - Serial.println("Knock!"); - } - delay(100); // delay to avoid overloading the serial port buffer -} diff --git a/build/shared/examples/06.Sensors/Knock/Knock.txt b/build/shared/examples/06.Sensors/Knock/Knock.txt deleted file mode 100644 index d93677ef4..000000000 --- a/build/shared/examples/06.Sensors/Knock/Knock.txt +++ /dev/null @@ -1 +0,0 @@ -Detect knocks with a piezo element.
\ No newline at end of file diff --git a/build/shared/examples/06.Sensors/Knock/layout.png b/build/shared/examples/06.Sensors/Knock/layout.png Binary files differdeleted file mode 100644 index d962757bc..000000000 --- a/build/shared/examples/06.Sensors/Knock/layout.png +++ /dev/null diff --git a/build/shared/examples/06.Sensors/Knock/schematic.png b/build/shared/examples/06.Sensors/Knock/schematic.png Binary files differdeleted file mode 100644 index 6e18bf11e..000000000 --- a/build/shared/examples/06.Sensors/Knock/schematic.png +++ /dev/null diff --git a/build/shared/examples/06.Sensors/Memsic2125/Memsic2125.ino b/build/shared/examples/06.Sensors/Memsic2125/Memsic2125.ino deleted file mode 100644 index da69df9d1..000000000 --- a/build/shared/examples/06.Sensors/Memsic2125/Memsic2125.ino +++ /dev/null @@ -1,60 +0,0 @@ -/* - Memsic2125 - - Read the Memsic 2125 two-axis accelerometer. Converts the pulses output by the - 2125 into milli-g's (1/1000 of Earth's gravity) and prints them over the - serial connection to the computer. - - The circuit: - - X output of accelerometer to digital pin 2 - - Y output of accelerometer to digital pin 3 - - +V of accelerometer to +5V - - GND of accelerometer to ground - - created 6 Nov 2008 - by David A. Mellis - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Memsic2125 -*/ - -// these constants won't change: -const int xPin = 2; // X output of the accelerometer -const int yPin = 3; // Y output of the accelerometer - -void setup() { - // initialize serial communications: - Serial.begin(9600); - // initialize the pins connected to the accelerometer as inputs: - pinMode(xPin, INPUT); - pinMode(yPin, INPUT); -} - -void loop() { - // variables to read the pulse widths: - int pulseX, pulseY; - // variables to contain the resulting accelerations - int accelerationX, accelerationY; - - // read pulse from x- and y-axes: - pulseX = pulseIn(xPin, HIGH); - pulseY = pulseIn(yPin, HIGH); - - // convert the pulse width into acceleration - // accelerationX and accelerationY are in milli-g's: - // Earth's gravity is 1000 milli-g's, or 1 g. - accelerationX = ((pulseX / 10) - 500) * 8; - accelerationY = ((pulseY / 10) - 500) * 8; - - // print the acceleration - Serial.print(accelerationX); - // print a tab character: - Serial.print("\t"); - Serial.print(accelerationY); - Serial.println(); - - delay(100); -} diff --git a/build/shared/examples/06.Sensors/Memsic2125/Memsic2125.txt b/build/shared/examples/06.Sensors/Memsic2125/Memsic2125.txt deleted file mode 100644 index 003eb3910..000000000 --- a/build/shared/examples/06.Sensors/Memsic2125/Memsic2125.txt +++ /dev/null @@ -1 +0,0 @@ -Two-axis accelerometer.
\ No newline at end of file diff --git a/build/shared/examples/06.Sensors/Memsic2125/layout.png b/build/shared/examples/06.Sensors/Memsic2125/layout.png Binary files differdeleted file mode 100644 index 645f792b0..000000000 --- a/build/shared/examples/06.Sensors/Memsic2125/layout.png +++ /dev/null diff --git a/build/shared/examples/06.Sensors/Memsic2125/schematic.png b/build/shared/examples/06.Sensors/Memsic2125/schematic.png Binary files differdeleted file mode 100644 index df26fe929..000000000 --- a/build/shared/examples/06.Sensors/Memsic2125/schematic.png +++ /dev/null diff --git a/build/shared/examples/06.Sensors/Ping/Ping.ino b/build/shared/examples/06.Sensors/Ping/Ping.ino deleted file mode 100644 index cdde18e45..000000000 --- a/build/shared/examples/06.Sensors/Ping/Ping.ino +++ /dev/null @@ -1,79 +0,0 @@ -/* - Ping))) Sensor - - This sketch reads a PING))) ultrasonic rangefinder and returns the distance - to the closest object in range. To do this, it sends a pulse to the sensor to - initiate a reading, then listens for a pulse to return. The length of the - returning pulse is proportional to the distance of the object from the sensor. - - The circuit: - - +V connection of the PING))) attached to +5V - - GND connection of the PING))) attached to ground - - SIG connection of the PING))) attached to digital pin 7 - - created 3 Nov 2008 - by David A. Mellis - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/Ping -*/ - -// this constant won't change. It's the pin number of the sensor's output: -const int pingPin = 7; - -void setup() { - // initialize serial communication: - Serial.begin(9600); -} - -void loop() { - // establish variables for duration of the ping, and the distance result - // in inches and centimeters: - long duration, inches, cm; - - // The PING))) is triggered by a HIGH pulse of 2 or more microseconds. - // Give a short LOW pulse beforehand to ensure a clean HIGH pulse: - pinMode(pingPin, OUTPUT); - digitalWrite(pingPin, LOW); - delayMicroseconds(2); - digitalWrite(pingPin, HIGH); - delayMicroseconds(5); - digitalWrite(pingPin, LOW); - - // The same pin is used to read the signal from the PING))): a HIGH pulse - // whose duration is the time (in microseconds) from the sending of the ping - // to the reception of its echo off of an object. - pinMode(pingPin, INPUT); - duration = pulseIn(pingPin, HIGH); - - // convert the time into a distance - inches = microsecondsToInches(duration); - cm = microsecondsToCentimeters(duration); - - Serial.print(inches); - Serial.print("in, "); - Serial.print(cm); - Serial.print("cm"); - Serial.println(); - - delay(100); -} - -long microsecondsToInches(long microseconds) { - // According to Parallax's datasheet for the PING))), there are 73.746 - // microseconds per inch (i.e. sound travels at 1130 feet per second). - // This gives the distance travelled by the ping, outbound and return, - // so we divide by 2 to get the distance of the obstacle. - // See: http://www.parallax.com/dl/docs/prod/acc/28015-PING-v1.3.pdf - return microseconds / 74 / 2; -} - -long microsecondsToCentimeters(long microseconds) { - // The speed of sound is 340 m/s or 29 microseconds per centimeter. - // The ping travels out and back, so to find the distance of the object we - // take half of the distance travelled. - return microseconds / 29 / 2; -} diff --git a/build/shared/examples/06.Sensors/Ping/Ping.txt b/build/shared/examples/06.Sensors/Ping/Ping.txt deleted file mode 100644 index 9746c7568..000000000 --- a/build/shared/examples/06.Sensors/Ping/Ping.txt +++ /dev/null @@ -1 +0,0 @@ -Detecting objects with an ultrasonic range finder.
\ No newline at end of file diff --git a/build/shared/examples/06.Sensors/Ping/layout.png b/build/shared/examples/06.Sensors/Ping/layout.png Binary files differdeleted file mode 100644 index 0c93f0132..000000000 --- a/build/shared/examples/06.Sensors/Ping/layout.png +++ /dev/null diff --git a/build/shared/examples/06.Sensors/Ping/schematic.png b/build/shared/examples/06.Sensors/Ping/schematic.png Binary files differdeleted file mode 100644 index ca4ebc405..000000000 --- a/build/shared/examples/06.Sensors/Ping/schematic.png +++ /dev/null diff --git a/build/shared/examples/07.Display/RowColumnScanning/RowColumnScanning.ino b/build/shared/examples/07.Display/RowColumnScanning/RowColumnScanning.ino deleted file mode 100644 index f2cf79525..000000000 --- a/build/shared/examples/07.Display/RowColumnScanning/RowColumnScanning.ino +++ /dev/null @@ -1,111 +0,0 @@ -/* - Row-Column Scanning an 8x8 LED matrix with X-Y input - - This example controls an 8x8 LED matrix using two analog inputs. - - This example works for the Lumex LDM-24488NI Matrix. See - http://sigma.octopart.com/140413/datasheet/Lumex-LDM-24488NI.pdf - for the pin connections. - - For other LED cathode column matrixes, you should only need to change the pin - numbers in the row[] and column[] arrays. - - rows are the anodes - cols are the cathodes - --------- - - Pin numbers: - Matrix: - - digital pins 2 through 13, - - analog pins 2 through 5 used as digital 16 through 19 - Potentiometers: - - center pins are attached to analog pins 0 and 1, respectively - - side pins attached to +5V and ground, respectively - - created 27 May 2009 - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/RowColumnScanning - - see also http://www.tigoe.net/pcomp/code/category/arduinowiring for more -*/ - -// 2-dimensional array of row pin numbers: -const int row[8] = { - 2, 7, 19, 5, 13, 18, 12, 16 -}; - -// 2-dimensional array of column pin numbers: -const int col[8] = { - 6, 11, 10, 3, 17, 4, 8, 9 -}; - -// 2-dimensional array of pixels: -int pixels[8][8]; - -// cursor position: -int x = 5; -int y = 5; - -void setup() { - // initialize the I/O pins as outputs iterate over the pins: - for (int thisPin = 0; thisPin < 8; thisPin++) { - // initialize the output pins: - pinMode(col[thisPin], OUTPUT); - pinMode(row[thisPin], OUTPUT); - // take the col pins (i.e. the cathodes) high to ensure that the LEDS are off: - digitalWrite(col[thisPin], HIGH); - } - - // initialize the pixel matrix: - for (int x = 0; x < 8; x++) { - for (int y = 0; y < 8; y++) { - pixels[x][y] = HIGH; - } - } -} - -void loop() { - // read input: - readSensors(); - - // draw the screen: - refreshScreen(); -} - -void readSensors() { - // turn off the last position: - pixels[x][y] = HIGH; - // read the sensors for X and Y values: - x = 7 - map(analogRead(A0), 0, 1023, 0, 7); - y = map(analogRead(A1), 0, 1023, 0, 7); - // set the new pixel position low so that the LED will turn on in the next - // screen refresh: - pixels[x][y] = LOW; - -} - -void refreshScreen() { - // iterate over the rows (anodes): - for (int thisRow = 0; thisRow < 8; thisRow++) { - // take the row pin (anode) high: - digitalWrite(row[thisRow], HIGH); - // iterate over the cols (cathodes): - for (int thisCol = 0; thisCol < 8; thisCol++) { - // get the state of the current pixel; - int thisPixel = pixels[thisRow][thisCol]; - // when the row is HIGH and the col is LOW, - // the LED where they meet turns on: - digitalWrite(col[thisCol], thisPixel); - // turn the pixel off: - if (thisPixel == LOW) { - digitalWrite(col[thisCol], HIGH); - } - } - // take the row pin low to turn off the whole row: - digitalWrite(row[thisRow], LOW); - } -} diff --git a/build/shared/examples/07.Display/RowColumnScanning/RowColumnScanning.txt b/build/shared/examples/07.Display/RowColumnScanning/RowColumnScanning.txt deleted file mode 100644 index d7cebdce2..000000000 --- a/build/shared/examples/07.Display/RowColumnScanning/RowColumnScanning.txt +++ /dev/null @@ -1 +0,0 @@ -How to control an 8x8 matrix of LEDs.
\ No newline at end of file diff --git a/build/shared/examples/07.Display/RowColumnScanning/layout.png b/build/shared/examples/07.Display/RowColumnScanning/layout.png Binary files differdeleted file mode 100644 index 3187fbe20..000000000 --- a/build/shared/examples/07.Display/RowColumnScanning/layout.png +++ /dev/null diff --git a/build/shared/examples/07.Display/RowColumnScanning/schematic.png b/build/shared/examples/07.Display/RowColumnScanning/schematic.png Binary files differdeleted file mode 100644 index 238d251c7..000000000 --- a/build/shared/examples/07.Display/RowColumnScanning/schematic.png +++ /dev/null diff --git a/build/shared/examples/07.Display/barGraph/LEDBarGraph.txt b/build/shared/examples/07.Display/barGraph/LEDBarGraph.txt deleted file mode 100644 index 969634a66..000000000 --- a/build/shared/examples/07.Display/barGraph/LEDBarGraph.txt +++ /dev/null @@ -1 +0,0 @@ -How to make an LED bar graph.
\ No newline at end of file diff --git a/build/shared/examples/07.Display/barGraph/barGraph.ino b/build/shared/examples/07.Display/barGraph/barGraph.ino deleted file mode 100644 index 48327a98b..000000000 --- a/build/shared/examples/07.Display/barGraph/barGraph.ino +++ /dev/null @@ -1,57 +0,0 @@ -/* - LED bar graph - - Turns on a series of LEDs based on the value of an analog sensor. - This is a simple way to make a bar graph display. Though this graph uses 10 - LEDs, you can use any number by changing the LED count and the pins in the - array. - - This method can be used to control any series of digital outputs that depends - on an analog input. - - The circuit: - - LEDs from pins 2 through 11 to ground - - created 4 Sep 2010 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/BarGraph -*/ - -// these constants won't change: -const int analogPin = A0; // the pin that the potentiometer is attached to -const int ledCount = 10; // the number of LEDs in the bar graph - -int ledPins[] = { - 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 -}; // an array of pin numbers to which LEDs are attached - - -void setup() { - // loop over the pin array and set them all to output: - for (int thisLed = 0; thisLed < ledCount; thisLed++) { - pinMode(ledPins[thisLed], OUTPUT); - } -} - -void loop() { - // read the potentiometer: - int sensorReading = analogRead(analogPin); - // map the result to a range from 0 to the number of LEDs: - int ledLevel = map(sensorReading, 0, 1023, 0, ledCount); - - // loop over the LED array: - for (int thisLed = 0; thisLed < ledCount; thisLed++) { - // if the array element's index is less than ledLevel, - // turn the pin for this element on: - if (thisLed < ledLevel) { - digitalWrite(ledPins[thisLed], HIGH); - } - // turn off all pins higher than the ledLevel: - else { - digitalWrite(ledPins[thisLed], LOW); - } - } -} diff --git a/build/shared/examples/07.Display/barGraph/layout.png b/build/shared/examples/07.Display/barGraph/layout.png Binary files differdeleted file mode 100644 index cf676835f..000000000 --- a/build/shared/examples/07.Display/barGraph/layout.png +++ /dev/null diff --git a/build/shared/examples/07.Display/barGraph/schematic.png b/build/shared/examples/07.Display/barGraph/schematic.png Binary files differdeleted file mode 100644 index dfc051342..000000000 --- a/build/shared/examples/07.Display/barGraph/schematic.png +++ /dev/null diff --git a/build/shared/examples/08.Strings/CharacterAnalysis/CharacterAnalysis.ino b/build/shared/examples/08.Strings/CharacterAnalysis/CharacterAnalysis.ino deleted file mode 100644 index 07a89c582..000000000 --- a/build/shared/examples/08.Strings/CharacterAnalysis/CharacterAnalysis.ino +++ /dev/null @@ -1,85 +0,0 @@ -/* - Character analysis operators - - Examples using the character analysis operators. - Send any byte and the sketch will tell you about it. - - created 29 Nov 2010 - modified 2 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/CharacterAnalysis -*/ - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // send an intro: - Serial.println("send any byte and I'll tell you everything I can about it"); - Serial.println(); -} - -void loop() { - // get any incoming bytes: - if (Serial.available() > 0) { - int thisChar = Serial.read(); - - // say what was sent: - Serial.print("You sent me: \'"); - Serial.write(thisChar); - Serial.print("\' ASCII Value: "); - Serial.println(thisChar); - - // analyze what was sent: - if (isAlphaNumeric(thisChar)) { - Serial.println("it's alphanumeric"); - } - if (isAlpha(thisChar)) { - Serial.println("it's alphabetic"); - } - if (isAscii(thisChar)) { - Serial.println("it's ASCII"); - } - if (isWhitespace(thisChar)) { - Serial.println("it's whitespace"); - } - if (isControl(thisChar)) { - Serial.println("it's a control character"); - } - if (isDigit(thisChar)) { - Serial.println("it's a numeric digit"); - } - if (isGraph(thisChar)) { - Serial.println("it's a printable character that's not whitespace"); - } - if (isLowerCase(thisChar)) { - Serial.println("it's lower case"); - } - if (isPrintable(thisChar)) { - Serial.println("it's printable"); - } - if (isPunct(thisChar)) { - Serial.println("it's punctuation"); - } - if (isSpace(thisChar)) { - Serial.println("it's a space character"); - } - if (isUpperCase(thisChar)) { - Serial.println("it's upper case"); - } - if (isHexadecimalDigit(thisChar)) { - Serial.println("it's a valid hexadecimaldigit (i.e. 0 - 9, a - F, or A - F)"); - } - - // add some space and ask for another byte: - Serial.println(); - Serial.println("Give me another byte:"); - Serial.println(); - } -} diff --git a/build/shared/examples/08.Strings/StringAdditionOperator/StringAdditionOperator.ino b/build/shared/examples/08.Strings/StringAdditionOperator/StringAdditionOperator.ino deleted file mode 100644 index 5f65e5020..000000000 --- a/build/shared/examples/08.Strings/StringAdditionOperator/StringAdditionOperator.ino +++ /dev/null @@ -1,67 +0,0 @@ -/* - Adding Strings together - - Examples of how to add Strings together - You can also add several different data types to String, as shown here: - - created 27 Jul 2010 - modified 2 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringAdditionOperator -*/ - -// declare three Strings: -String stringOne, stringTwo, stringThree; - -void setup() { - // initialize serial and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - stringOne = String("You added "); - stringTwo = String("this string"); - stringThree = String(); - // send an intro: - Serial.println("\n\nAdding Strings together (concatenation):"); - Serial.println(); -} - -void loop() { - // adding a constant integer to a String: - stringThree = stringOne + 123; - Serial.println(stringThree); // prints "You added 123" - - // adding a constant long integer to a String: - stringThree = stringOne + 123456789; - Serial.println(stringThree); // prints "You added 123456789" - - // adding a constant character to a String: - stringThree = stringOne + 'A'; - Serial.println(stringThree); // prints "You added A" - - // adding a constant string to a String: - stringThree = stringOne + "abc"; - Serial.println(stringThree); // prints "You added abc" - - stringThree = stringOne + stringTwo; - Serial.println(stringThree); // prints "You added this string" - - // adding a variable integer to a String: - int sensorValue = analogRead(A0); - stringOne = "Sensor value: "; - stringThree = stringOne + sensorValue; - Serial.println(stringThree); // prints "Sensor Value: 401" or whatever value analogRead(A0) has - - // adding a variable long integer to a String: - stringOne = "millis() value: "; - stringThree = stringOne + millis(); - Serial.println(stringThree); // prints "The millis: 345345" or whatever value millis() has - - // do nothing while true: - while (true); -} diff --git a/build/shared/examples/08.Strings/StringAdditionOperator/StringAdditionOperator.txt b/build/shared/examples/08.Strings/StringAdditionOperator/StringAdditionOperator.txt deleted file mode 100644 index 94d8f6491..000000000 --- a/build/shared/examples/08.Strings/StringAdditionOperator/StringAdditionOperator.txt +++ /dev/null @@ -1 +0,0 @@ -Add Strings together in a variety of ways.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringAppendOperator/StringAppendOperator.ino b/build/shared/examples/08.Strings/StringAppendOperator/StringAppendOperator.ino deleted file mode 100644 index abdfe76a3..000000000 --- a/build/shared/examples/08.Strings/StringAppendOperator/StringAppendOperator.ino +++ /dev/null @@ -1,72 +0,0 @@ -/* - Appending to Strings using the += operator and concat() - - Examples of how to append different data types to Strings - - created 27 Jul 2010 - modified 2 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringAppendOperator -*/ - -String stringOne, stringTwo; - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - stringOne = String("Sensor "); - stringTwo = String("value"); - // send an intro: - Serial.println("\n\nAppending to a String:"); - Serial.println(); -} - -void loop() { - Serial.println(stringOne); // prints "Sensor " - - // adding a string to a String: - stringOne += stringTwo; - Serial.println(stringOne); // prints "Sensor value" - - // adding a constant string to a String: - stringOne += " for input "; - Serial.println(stringOne); // prints "Sensor value for input" - - // adding a constant character to a String: - stringOne += 'A'; - Serial.println(stringOne); // prints "Sensor value for input A" - - // adding a constant integer to a String: - stringOne += 0; - Serial.println(stringOne); // prints "Sensor value for input A0" - - // adding a constant string to a String: - stringOne += ": "; - Serial.println(stringOne); // prints "Sensor value for input" - - // adding a variable integer to a String: - stringOne += analogRead(A0); - Serial.println(stringOne); // prints "Sensor value for input A0: 456" or whatever analogRead(A0) is - - Serial.println("\n\nchanging the Strings' values"); - stringOne = "A long integer: "; - stringTwo = "The millis(): "; - - // adding a constant long integer to a String: - stringOne += 123456789; - Serial.println(stringOne); // prints "A long integer: 123456789" - - // using concat() to add a long variable to a String: - stringTwo.concat(millis()); - Serial.println(stringTwo); // prints "The millis(): 43534" or whatever the value of the millis() is - - // do nothing while true: - while (true); -} diff --git a/build/shared/examples/08.Strings/StringCaseChanges/StringCaseChanges.ino b/build/shared/examples/08.Strings/StringCaseChanges/StringCaseChanges.ino deleted file mode 100644 index 78a127052..000000000 --- a/build/shared/examples/08.Strings/StringCaseChanges/StringCaseChanges.ino +++ /dev/null @@ -1,43 +0,0 @@ -/* - String Case changes - - Examples of how to change the case of a String - - created 27 Jul 2010 - modified 2 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringCaseChanges -*/ - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // send an intro: - Serial.println("\n\nString case changes:"); - Serial.println(); -} - -void loop() { - // toUpperCase() changes all letters to upper case: - String stringOne = "<html><head><body>"; - Serial.println(stringOne); - stringOne.toUpperCase(); - Serial.println(stringOne); - - // toLowerCase() changes all letters to lower case: - String stringTwo = "</BODY></HTML>"; - Serial.println(stringTwo); - stringTwo.toLowerCase(); - Serial.println(stringTwo); - - - // do nothing while true: - while (true); -} diff --git a/build/shared/examples/08.Strings/StringCaseChanges/StringCaseChanges.txt b/build/shared/examples/08.Strings/StringCaseChanges/StringCaseChanges.txt deleted file mode 100644 index c0c0e4a9e..000000000 --- a/build/shared/examples/08.Strings/StringCaseChanges/StringCaseChanges.txt +++ /dev/null @@ -1 +0,0 @@ -Change the case of a String.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringCharacters/StringCharacters.ino b/build/shared/examples/08.Strings/StringCharacters/StringCharacters.ino deleted file mode 100644 index f985e7929..000000000 --- a/build/shared/examples/08.Strings/StringCharacters/StringCharacters.ino +++ /dev/null @@ -1,45 +0,0 @@ -/* - String charAt() and setCharAt() - - Examples of how to get and set characters of a String - - created 27 Jul 2010 - modified 2 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringCharacters -*/ - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - Serial.println("\n\nString charAt() and setCharAt():"); -} - -void loop() { - // make a String to report a sensor reading: - String reportString = "SensorReading: 456"; - Serial.println(reportString); - - // the reading's most significant digit is at position 15 in the reportString: - char mostSignificantDigit = reportString.charAt(15); - - String message = "Most significant digit of the sensor reading is: "; - Serial.println(message + mostSignificantDigit); - - // add blank space: - Serial.println(); - - // you can also set the character of a String. Change the : to a = character - reportString.setCharAt(13, '='); - Serial.println(reportString); - - // do nothing while true: - while (true); -} diff --git a/build/shared/examples/08.Strings/StringCharacters/StringCharacters.txt b/build/shared/examples/08.Strings/StringCharacters/StringCharacters.txt deleted file mode 100644 index a1bcb8556..000000000 --- a/build/shared/examples/08.Strings/StringCharacters/StringCharacters.txt +++ /dev/null @@ -1 +0,0 @@ -Get/set the value of a specific character in a String.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringComparisonOperators/StringComparisonOperators.ino b/build/shared/examples/08.Strings/StringComparisonOperators/StringComparisonOperators.ino deleted file mode 100644 index 48540f9cd..000000000 --- a/build/shared/examples/08.Strings/StringComparisonOperators/StringComparisonOperators.ino +++ /dev/null @@ -1,128 +0,0 @@ -/* - Comparing Strings - - Examples of how to compare Strings using the comparison operators - - created 27 Jul 2010 - modified 2 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringComparisonOperators -*/ - -String stringOne, stringTwo; - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - - stringOne = String("this"); - stringTwo = String("that"); - // send an intro: - Serial.println("\n\nComparing Strings:"); - Serial.println(); - -} - -void loop() { - // two Strings equal: - if (stringOne == "this") { - Serial.println("StringOne == \"this\""); - } - // two Strings not equal: - if (stringOne != stringTwo) { - Serial.println(stringOne + " =! " + stringTwo); - } - - // two Strings not equal (case sensitivity matters): - stringOne = "This"; - stringTwo = "this"; - if (stringOne != stringTwo) { - Serial.println(stringOne + " =! " + stringTwo); - } - // you can also use equals() to see if two Strings are the same: - if (stringOne.equals(stringTwo)) { - Serial.println(stringOne + " equals " + stringTwo); - } else { - Serial.println(stringOne + " does not equal " + stringTwo); - } - - // or perhaps you want to ignore case: - if (stringOne.equalsIgnoreCase(stringTwo)) { - Serial.println(stringOne + " equals (ignoring case) " + stringTwo); - } else { - Serial.println(stringOne + " does not equal (ignoring case) " + stringTwo); - } - - // a numeric String compared to the number it represents: - stringOne = "1"; - int numberOne = 1; - if (stringOne.toInt() == numberOne) { - Serial.println(stringOne + " = " + numberOne); - } - - - - // two numeric Strings compared: - stringOne = "2"; - stringTwo = "1"; - if (stringOne >= stringTwo) { - Serial.println(stringOne + " >= " + stringTwo); - } - - // comparison operators can be used to compare Strings for alphabetic sorting too: - stringOne = String("Brown"); - if (stringOne < "Charles") { - Serial.println(stringOne + " < Charles"); - } - - if (stringOne > "Adams") { - Serial.println(stringOne + " > Adams"); - } - - if (stringOne <= "Browne") { - Serial.println(stringOne + " <= Browne"); - } - - - if (stringOne >= "Brow") { - Serial.println(stringOne + " >= Brow"); - } - - // the compareTo() operator also allows you to compare Strings - // it evaluates on the first character that's different. - // if the first character of the String you're comparing to comes first in - // alphanumeric order, then compareTo() is greater than 0: - stringOne = "Cucumber"; - stringTwo = "Cucuracha"; - if (stringOne.compareTo(stringTwo) < 0) { - Serial.println(stringOne + " comes before " + stringTwo); - } else { - Serial.println(stringOne + " comes after " + stringTwo); - } - - delay(10000); // because the next part is a loop: - - // compareTo() is handy when you've got Strings with numbers in them too: - - while (true) { - stringOne = "Sensor: "; - stringTwo = "Sensor: "; - - stringOne += analogRead(A0); - stringTwo += analogRead(A5); - - if (stringOne.compareTo(stringTwo) < 0) { - Serial.println(stringOne + " comes before " + stringTwo); - } else { - Serial.println(stringOne + " comes after " + stringTwo); - - } - } -} diff --git a/build/shared/examples/08.Strings/StringComparisonOperators/StringComparisonOperators.txt b/build/shared/examples/08.Strings/StringComparisonOperators/StringComparisonOperators.txt deleted file mode 100644 index 95cf1c794..000000000 --- a/build/shared/examples/08.Strings/StringComparisonOperators/StringComparisonOperators.txt +++ /dev/null @@ -1 +0,0 @@ -Compare Strings alphabetically.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringConstructors/StringConstructors.ino b/build/shared/examples/08.Strings/StringConstructors/StringConstructors.ino deleted file mode 100644 index 414dd8dca..000000000 --- a/build/shared/examples/08.Strings/StringConstructors/StringConstructors.ino +++ /dev/null @@ -1,80 +0,0 @@ -/* - String constructors - - Examples of how to create Strings from other data types - - created 27 Jul 2010 - modified 30 Aug 2011 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringConstructors -*/ - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // send an intro: - Serial.println("\n\nString Constructors:"); - Serial.println(); -} - -void loop() { - // using a constant String: - String stringOne = "Hello String"; - Serial.println(stringOne); // prints "Hello String" - - // converting a constant char into a String: - stringOne = String('a'); - Serial.println(stringOne); // prints "a" - - // converting a constant string into a String object: - String stringTwo = String("This is a string"); - Serial.println(stringTwo); // prints "This is a string" - - // concatenating two strings: - stringOne = String(stringTwo + " with more"); - // prints "This is a string with more": - Serial.println(stringOne); - - // using a constant integer: - stringOne = String(13); - Serial.println(stringOne); // prints "13" - - // using an int and a base: - stringOne = String(analogRead(A0), DEC); - // prints "453" or whatever the value of analogRead(A0) is - Serial.println(stringOne); - - // using an int and a base (hexadecimal): - stringOne = String(45, HEX); - // prints "2d", which is the hexadecimal version of decimal 45: - Serial.println(stringOne); - - // using an int and a base (binary) - stringOne = String(255, BIN); - // prints "11111111" which is the binary value of 255 - Serial.println(stringOne); - - // using a long and a base: - stringOne = String(millis(), DEC); - // prints "123456" or whatever the value of millis() is: - Serial.println(stringOne); - - // using a float and the right decimal places: - stringOne = String(5.698, 3); - Serial.println(stringOne); - - // using a float and less decimal places to use rounding: - stringOne = String(5.698, 2); - Serial.println(stringOne); - - // do nothing while true: - while (true); - -} diff --git a/build/shared/examples/08.Strings/StringConstructors/StringConstructors.txt b/build/shared/examples/08.Strings/StringConstructors/StringConstructors.txt deleted file mode 100644 index d58dface8..000000000 --- a/build/shared/examples/08.Strings/StringConstructors/StringConstructors.txt +++ /dev/null @@ -1 +0,0 @@ -How to initialize String objects.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringIndexOf/StringIndexOf.ino b/build/shared/examples/08.Strings/StringIndexOf/StringIndexOf.ino deleted file mode 100644 index bac9f81ef..000000000 --- a/build/shared/examples/08.Strings/StringIndexOf/StringIndexOf.ino +++ /dev/null @@ -1,65 +0,0 @@ -/* - String indexOf() and lastIndexOf() functions - - Examples of how to evaluate, look for, and replace characters in a String - - created 27 Jul 2010 - modified 2 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringIndexOf -*/ - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // send an intro: - Serial.println("\n\nString indexOf() and lastIndexOf() functions:"); - Serial.println(); -} - -void loop() { - // indexOf() returns the position (i.e. index) of a particular character in a - // String. For example, if you were parsing HTML tags, you could use it: - String stringOne = "<HTML><HEAD><BODY>"; - int firstClosingBracket = stringOne.indexOf('>'); - Serial.println("The index of > in the string " + stringOne + " is " + firstClosingBracket); - - stringOne = "<HTML><HEAD><BODY>"; - int secondOpeningBracket = firstClosingBracket + 1; - int secondClosingBracket = stringOne.indexOf('>', secondOpeningBracket); - Serial.println("The index of the second > in the string " + stringOne + " is " + secondClosingBracket); - - // you can also use indexOf() to search for Strings: - stringOne = "<HTML><HEAD><BODY>"; - int bodyTag = stringOne.indexOf("<BODY>"); - Serial.println("The index of the body tag in the string " + stringOne + " is " + bodyTag); - - stringOne = "<UL><LI>item<LI>item<LI>item</UL>"; - int firstListItem = stringOne.indexOf("<LI>"); - int secondListItem = stringOne.indexOf("<LI>", firstListItem + 1); - Serial.println("The index of the second list tag in the string " + stringOne + " is " + secondListItem); - - // lastIndexOf() gives you the last occurrence of a character or string: - int lastOpeningBracket = stringOne.lastIndexOf('<'); - Serial.println("The index of the last < in the string " + stringOne + " is " + lastOpeningBracket); - - int lastListItem = stringOne.lastIndexOf("<LI>"); - Serial.println("The index of the last list tag in the string " + stringOne + " is " + lastListItem); - - - // lastIndexOf() can also search for a string: - stringOne = "<p>Lorem ipsum dolor sit amet</p><p>Ipsem</p><p>Quod</p>"; - int lastParagraph = stringOne.lastIndexOf("<p"); - int secondLastGraf = stringOne.lastIndexOf("<p", lastParagraph - 1); - Serial.println("The index of the second to last paragraph tag " + stringOne + " is " + secondLastGraf); - - // do nothing while true: - while (true); -} diff --git a/build/shared/examples/08.Strings/StringIndexOf/StringIndexOf.txt b/build/shared/examples/08.Strings/StringIndexOf/StringIndexOf.txt deleted file mode 100644 index d7f6d8d69..000000000 --- a/build/shared/examples/08.Strings/StringIndexOf/StringIndexOf.txt +++ /dev/null @@ -1 +0,0 @@ -Look for the first/last instance of a character in a String.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringLength/StringLength.ino b/build/shared/examples/08.Strings/StringLength/StringLength.ino deleted file mode 100644 index 0fe5203b9..000000000 --- a/build/shared/examples/08.Strings/StringLength/StringLength.ino +++ /dev/null @@ -1,50 +0,0 @@ -/* - String length() - - Examples of how to use length() in a String. - Open the Serial Monitor and start sending characters to see the results. - - created 1 Aug 2010 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringLengthTrim -*/ - -String txtMsg = ""; // a string for incoming text -unsigned int lastStringLength = txtMsg.length(); // previous length of the String - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // send an intro: - Serial.println("\n\nString length():"); - Serial.println(); -} - -void loop() { - // add any incoming characters to the String: - while (Serial.available() > 0) { - char inChar = Serial.read(); - txtMsg += inChar; - } - - // print the message and a notice if it's changed: - if (txtMsg.length() != lastStringLength) { - Serial.println(txtMsg); - Serial.println(txtMsg.length()); - // if the String's longer than 140 characters, complain: - if (txtMsg.length() < 140) { - Serial.println("That's a perfectly acceptable text message"); - } else { - Serial.println("That's too long for a text message."); - } - // note the length for next time through the loop: - lastStringLength = txtMsg.length(); - } -} diff --git a/build/shared/examples/08.Strings/StringLength/StringLength.txt b/build/shared/examples/08.Strings/StringLength/StringLength.txt deleted file mode 100644 index 7ffb9c312..000000000 --- a/build/shared/examples/08.Strings/StringLength/StringLength.txt +++ /dev/null @@ -1 +0,0 @@ -Examples of how to use length() in a String.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringLengthTrim/StringLengthTrim.ino b/build/shared/examples/08.Strings/StringLengthTrim/StringLengthTrim.ino deleted file mode 100644 index d107c8f09..000000000 --- a/build/shared/examples/08.Strings/StringLengthTrim/StringLengthTrim.ino +++ /dev/null @@ -1,42 +0,0 @@ -/* - String length() and trim() - - Examples of how to use length() and trim() in a String - - created 27 Jul 2010 - modified 2 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringLengthTrim -*/ - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // send an intro: - Serial.println("\n\nString length() and trim():"); - Serial.println(); -} - -void loop() { - // here's a String with empty spaces at the end (called white space): - String stringOne = "Hello! "; - Serial.print(stringOne); - Serial.print("<--- end of string. Length: "); - Serial.println(stringOne.length()); - - // trim the white space off the string: - stringOne.trim(); - Serial.print(stringOne); - Serial.print("<--- end of trimmed string. Length: "); - Serial.println(stringOne.length()); - - // do nothing while true: - while (true); -} diff --git a/build/shared/examples/08.Strings/StringLengthTrim/StringLengthTrim.txt b/build/shared/examples/08.Strings/StringLengthTrim/StringLengthTrim.txt deleted file mode 100644 index 43dcaa984..000000000 --- a/build/shared/examples/08.Strings/StringLengthTrim/StringLengthTrim.txt +++ /dev/null @@ -1 +0,0 @@ -Get and trim the length of a String.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringReplace/StringReplace.ino b/build/shared/examples/08.Strings/StringReplace/StringReplace.ino deleted file mode 100644 index 17407f1ec..000000000 --- a/build/shared/examples/08.Strings/StringReplace/StringReplace.ino +++ /dev/null @@ -1,50 +0,0 @@ -/* - String replace() - - Examples of how to replace characters or substrings of a String - - created 27 Jul 2010 - modified 2 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringReplace -*/ - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // send an intro: - Serial.println("\n\nString replace:\n"); - Serial.println(); -} - -void loop() { - String stringOne = "<html><head><body>"; - Serial.println(stringOne); - // replace() changes all instances of one substring with another: - // first, make a copy of the original string: - String stringTwo = stringOne; - // then perform the replacements: - stringTwo.replace("<", "</"); - // print the original: - Serial.println("Original string: " + stringOne); - // and print the modified string: - Serial.println("Modified string: " + stringTwo); - - // you can also use replace() on single characters: - String normalString = "bookkeeper"; - Serial.println("normal: " + normalString); - String leetString = normalString; - leetString.replace('o', '0'); - leetString.replace('e', '3'); - Serial.println("l33tspeak: " + leetString); - - // do nothing while true: - while (true); -} diff --git a/build/shared/examples/08.Strings/StringReplace/StringReplace.txt b/build/shared/examples/08.Strings/StringReplace/StringReplace.txt deleted file mode 100644 index 75c7ce4c9..000000000 --- a/build/shared/examples/08.Strings/StringReplace/StringReplace.txt +++ /dev/null @@ -1 +0,0 @@ -Replace individual characters in a String.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringStartsWithEndsWith/StringStartsWithEndsWith.ino b/build/shared/examples/08.Strings/StringStartsWithEndsWith/StringStartsWithEndsWith.ino deleted file mode 100644 index 6ea6f2cce..000000000 --- a/build/shared/examples/08.Strings/StringStartsWithEndsWith/StringStartsWithEndsWith.ino +++ /dev/null @@ -1,53 +0,0 @@ -/* - String startWith() and endsWith() - - Examples of how to use startsWith() and endsWith() in a String - - created 27 Jul 2010 - modified 2 Apr 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringStartsWithEndsWith -*/ - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // send an intro: - Serial.println("\n\nString startsWith() and endsWith():"); - Serial.println(); -} - -void loop() { - // startsWith() checks to see if a String starts with a particular substring: - String stringOne = "HTTP/1.1 200 OK"; - Serial.println(stringOne); - if (stringOne.startsWith("HTTP/1.1")) { - Serial.println("Server's using http version 1.1"); - } - - // you can also look for startsWith() at an offset position in the string: - stringOne = "HTTP/1.1 200 OK"; - if (stringOne.startsWith("200 OK", 9)) { - Serial.println("Got an OK from the server"); - } - - // endsWith() checks to see if a String ends with a particular character: - String sensorReading = "sensor = "; - sensorReading += analogRead(A0); - Serial.print(sensorReading); - if (sensorReading.endsWith("0")) { - Serial.println(". This reading is divisible by ten"); - } else { - Serial.println(". This reading is not divisible by ten"); - } - - // do nothing while true: - while (true); -} diff --git a/build/shared/examples/08.Strings/StringStartsWithEndsWith/StringStartsWithEndsWith.txt b/build/shared/examples/08.Strings/StringStartsWithEndsWith/StringStartsWithEndsWith.txt deleted file mode 100644 index 80630ce7a..000000000 --- a/build/shared/examples/08.Strings/StringStartsWithEndsWith/StringStartsWithEndsWith.txt +++ /dev/null @@ -1 +0,0 @@ -Check which characters/substrings a given String starts or ends with.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringSubstring/StringSubstring.ino b/build/shared/examples/08.Strings/StringSubstring/StringSubstring.ino deleted file mode 100644 index ccdf2f330..000000000 --- a/build/shared/examples/08.Strings/StringSubstring/StringSubstring.ino +++ /dev/null @@ -1,43 +0,0 @@ -/* - String substring() - - Examples of how to use substring in a String - - created 27 Jul 2010, - modified 2 Apr 2012 - by Zach Eveland - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringSubstring -*/ - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // send an intro: - Serial.println("\n\nString substring():"); - Serial.println(); -} - -void loop() { - // Set up a String: - String stringOne = "Content-Type: text/html"; - Serial.println(stringOne); - - // substring(index) looks for the substring from the index position to the end: - if (stringOne.substring(19) == "html") { - Serial.println("It's an html file"); - } - // you can also look for a substring in the middle of a string: - if (stringOne.substring(14, 18) == "text") { - Serial.println("It's a text-based file"); - } - - // do nothing while true: - while (true); -} diff --git a/build/shared/examples/08.Strings/StringSubstring/StringSubstring.txt b/build/shared/examples/08.Strings/StringSubstring/StringSubstring.txt deleted file mode 100644 index ef88bc300..000000000 --- a/build/shared/examples/08.Strings/StringSubstring/StringSubstring.txt +++ /dev/null @@ -1 +0,0 @@ -Look for "phrases" within a given String.
\ No newline at end of file diff --git a/build/shared/examples/08.Strings/StringToInt/StringToInt.ino b/build/shared/examples/08.Strings/StringToInt/StringToInt.ino deleted file mode 100644 index 59e872aa2..000000000 --- a/build/shared/examples/08.Strings/StringToInt/StringToInt.ino +++ /dev/null @@ -1,50 +0,0 @@ -/* - String to Integer conversion - - Reads a serial input string until it sees a newline, then converts the string - to a number if the characters are digits. - - The circuit: - - No external components needed. - - created 29 Nov 2010 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/StringToInt -*/ - -String inString = ""; // string to hold input - -void setup() { - // Open serial communications and wait for port to open: - Serial.begin(9600); - while (!Serial) { - ; // wait for serial port to connect. Needed for native USB port only - } - - // send an intro: - Serial.println("\n\nString toInt():"); - Serial.println(); -} - -void loop() { - // Read serial input: - while (Serial.available() > 0) { - int inChar = Serial.read(); - if (isDigit(inChar)) { - // convert the incoming byte to a char and add it to the string: - inString += (char)inChar; - } - // if you get a newline, print the string, then the string's value: - if (inChar == '\n') { - Serial.print("Value:"); - Serial.println(inString.toInt()); - Serial.print("String: "); - Serial.println(inString); - // clear the string for new input: - inString = ""; - } - } -} diff --git a/build/shared/examples/09.USB/Keyboard/KeyboardLogout/KeyboardLogout.ino b/build/shared/examples/09.USB/Keyboard/KeyboardLogout/KeyboardLogout.ino deleted file mode 100644 index f6ea490c2..000000000 --- a/build/shared/examples/09.USB/Keyboard/KeyboardLogout/KeyboardLogout.ino +++ /dev/null @@ -1,89 +0,0 @@ -/* - Keyboard logout - - This sketch demonstrates the Keyboard library. - - When you connect pin 2 to ground, it performs a logout. - It uses keyboard combinations to do this, as follows: - - On Windows, CTRL-ALT-DEL followed by ALT-l - On Ubuntu, CTRL-ALT-DEL, and ENTER - On OSX, CMD-SHIFT-q - - To wake: Spacebar. - - Circuit: - - Arduino Leonardo or Micro - - wire to connect D2 to ground - - created 6 Mar 2012 - modified 27 Mar 2012 - by Tom Igoe - - This example is in the public domain. - - http://www.arduino.cc/en/Tutorial/KeyboardLogout -*/ - -#define OSX 0 -#define WINDOWS 1 -#define UBUNTU 2 - -#include "Keyboard.h" - -// change this to match your platform: -int platform = OSX; - -void setup() { - // make pin 2 an input and turn on the pull-up resistor so it goes high unless - // connected to ground: - pinMode(2, INPUT_PULLUP); - Keyboard.begin(); -} - -void loop() { - while (digitalRead(2) == HIGH) { - // do nothing until pin 2 goes low - delay(500); - } - delay(1000); - - switch (platform) { - case OSX: - Keyboard.press(KEY_LEFT_GUI); - // Shift-Q logs out: - Keyboard.press(KEY_LEFT_SHIFT); - Keyboard.press('Q'); - delay(100); - Keyboard.releaseAll(); - // enter: - Keyboard.write(KEY_RETURN); - break; - case WINDOWS: - // CTRL-ALT-DEL: - Keyboard.press(KEY_LEFT_CTRL); - Keyboard.press(KEY_LEFT_ALT); - Keyboard.press(KEY_DELETE); - delay(100); - Keyboard.releaseAll(); - // ALT-l: - delay(2000); - Keyboard.press(KEY_LEFT_ALT); - Keyboard.press('l'); - Keyboard.releaseAll(); - break; - case UBUNTU: - // CTRL-ALT-DEL: - Keyboard.press(KEY_LEFT_CTRL); - Keyboard.press(KEY_LEFT_ALT); - Keyboard.press(KEY_DELETE); - delay(1000); - Keyboard.releaseAll(); - // Enter to confirm logout: - Keyboard.write(KEY_RETURN); - break; - } - - // do nothing: - while (true); -} diff --git a/build/shared/examples/09.USB/Keyboard/KeyboardLogout/KeyboardLogout.txt b/build/shared/examples/09.USB/Keyboard/KeyboardLogout/KeyboardLogout.txt deleted file mode 100644 index 6d1900b13..000000000 --- a/build/shared/examples/09.USB/Keyboard/KeyboardLogout/KeyboardLogout.txt +++ /dev/null @@ -1 +0,0 @@ -Logs out the current user with key commands.
\ No newline at end of file diff --git a/build/shared/examples/09.USB/Keyboard/KeyboardMessage/KeyboardMessage.ino b/build/shared/examples/09.USB/Keyboard/KeyboardMessage/KeyboardMessage.ino deleted file mode 100644 index 32c3b9f81..000000000 --- a/build/shared/examples/09.USB/Keyboard/KeyboardMessage/KeyboardMessage.ino +++ /dev/null @@ -1,52 +0,0 @@ -/* - Keyboard Message test - - For the Arduino Leonardo and Micro. - - Sends a text string when a button is pressed. - - The circuit: - - pushbutton attached from pin 4 to +5V - - 10 kilohm resistor attached from pin 4 to ground - - created 24 Oct 2011 - modified 27 Mar 2012 - by Tom Igoe - modified 11 Nov 2013 - by Scott Fitzgerald - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/KeyboardMessage -*/ - -#include "Keyboard.h" - -const int buttonPin = 4; // input pin for pushbutton -int previousButtonState = HIGH; // for checking the state of a pushButton -int counter = 0; // button push counter - -void setup() { - // make the pushButton pin an input: - pinMode(buttonPin, INPUT); - // initialize control over the keyboard: - Keyboard.begin(); -} - -void loop() { - // read the pushbutton: - int buttonState = digitalRead(buttonPin); - // if the button state has changed, - if ((buttonState != previousButtonState) - // and it's currently pressed: - && (buttonState == HIGH)) { - // increment the button counter - counter++; - // type out a message - Keyboard.print("You pressed the button "); - Keyboard.print(counter); - Keyboard.println(" times."); - } - // save the current button state for comparison next time: - previousButtonState = buttonState; -} diff --git a/build/shared/examples/09.USB/Keyboard/KeyboardMessage/KeyboardMessage.txt b/build/shared/examples/09.USB/Keyboard/KeyboardMessage/KeyboardMessage.txt deleted file mode 100644 index 86fc2be23..000000000 --- a/build/shared/examples/09.USB/Keyboard/KeyboardMessage/KeyboardMessage.txt +++ /dev/null @@ -1 +0,0 @@ -Sends a text string when a button is pressed.
\ No newline at end of file diff --git a/build/shared/examples/09.USB/Keyboard/KeyboardMessage/layout.png b/build/shared/examples/09.USB/Keyboard/KeyboardMessage/layout.png Binary files differdeleted file mode 100644 index 622a9a5b0..000000000 --- a/build/shared/examples/09.USB/Keyboard/KeyboardMessage/layout.png +++ /dev/null diff --git a/build/shared/examples/09.USB/Keyboard/KeyboardMessage/schematic.png b/build/shared/examples/09.USB/Keyboard/KeyboardMessage/schematic.png Binary files differdeleted file mode 100644 index ef19b85a6..000000000 --- a/build/shared/examples/09.USB/Keyboard/KeyboardMessage/schematic.png +++ /dev/null diff --git a/build/shared/examples/09.USB/Keyboard/KeyboardReprogram/KeyboardReprogram.ino b/build/shared/examples/09.USB/Keyboard/KeyboardReprogram/KeyboardReprogram.ino deleted file mode 100644 index 7ec0d6d89..000000000 --- a/build/shared/examples/09.USB/Keyboard/KeyboardReprogram/KeyboardReprogram.ino +++ /dev/null @@ -1,103 +0,0 @@ -/* - Arduino Programs Blink - - This sketch demonstrates the Keyboard library. - - For Leonardo and Due boards only. - - When you connect pin 2 to ground, it creates a new window with a key - combination (CTRL-N), then types in the Blink sketch, then auto-formats the - text using another key combination (CTRL-T), then uploads the sketch to the - currently selected Arduino using a final key combination (CTRL-U). - - Circuit: - - Arduino Leonardo, Micro, Due, LilyPad USB, or Yún - - wire to connect D2 to ground - - created 5 Mar 2012 - modified 29 Mar 2012 - by Tom Igoe - modified 3 May 2014 - by Scott Fitzgerald - - This example is in the public domain. - - http://www.arduino.cc/en/Tutorial/KeyboardReprogram -*/ - -#include "Keyboard.h" - -// use this option for OSX. -// Comment it out if using Windows or Linux: -char ctrlKey = KEY_LEFT_GUI; -// use this option for Windows and Linux. -// leave commented out if using OSX: -// char ctrlKey = KEY_LEFT_CTRL; - - -void setup() { - // make pin 2 an input and turn on the pull-up resistor so it goes high unless - // connected to ground: - pinMode(2, INPUT_PULLUP); - // initialize control over the keyboard: - Keyboard.begin(); -} - -void loop() { - while (digitalRead(2) == HIGH) { - // do nothing until pin 2 goes low - delay(500); - } - delay(1000); - // new document: - Keyboard.press(ctrlKey); - Keyboard.press('n'); - delay(100); - Keyboard.releaseAll(); - // wait for new window to open: - delay(1000); - - // versions of the Arduino IDE after 1.5 pre-populate new sketches with - // setup() and loop() functions let's clear the window before typing anything new - // select all - Keyboard.press(ctrlKey); - Keyboard.press('a'); - delay(500); - Keyboard.releaseAll(); - // delete the selected text - Keyboard.write(KEY_BACKSPACE); - delay(500); - - // Type out "blink": - Keyboard.println("void setup() {"); - Keyboard.println("pinMode(13, OUTPUT);"); - Keyboard.println("}"); - Keyboard.println(); - Keyboard.println("void loop() {"); - Keyboard.println("digitalWrite(13, HIGH);"); - Keyboard.print("delay(3000);"); - // 3000 ms is too long. Delete it: - for (int keystrokes = 0; keystrokes < 6; keystrokes++) { - delay(500); - Keyboard.write(KEY_BACKSPACE); - } - // make it 1000 instead: - Keyboard.println("1000);"); - Keyboard.println("digitalWrite(13, LOW);"); - Keyboard.println("delay(1000);"); - Keyboard.println("}"); - // tidy up: - Keyboard.press(ctrlKey); - Keyboard.press('t'); - delay(100); - Keyboard.releaseAll(); - delay(3000); - // upload code: - Keyboard.press(ctrlKey); - Keyboard.press('u'); - delay(100); - Keyboard.releaseAll(); - - // wait for the sweet oblivion of reprogramming: - while (true); -} diff --git a/build/shared/examples/09.USB/Keyboard/KeyboardReprogram/KeyboardReprogram.txt b/build/shared/examples/09.USB/Keyboard/KeyboardReprogram/KeyboardReprogram.txt deleted file mode 100644 index 0ccbf5fc3..000000000 --- a/build/shared/examples/09.USB/Keyboard/KeyboardReprogram/KeyboardReprogram.txt +++ /dev/null @@ -1 +0,0 @@ -Opens a new window in the Arduino IDE and reprograms the Leonardo with a simple blink program.
\ No newline at end of file diff --git a/build/shared/examples/09.USB/Keyboard/KeyboardSerial/KeyboardSerial.ino b/build/shared/examples/09.USB/Keyboard/KeyboardSerial/KeyboardSerial.ino deleted file mode 100644 index 72d9dddf5..000000000 --- a/build/shared/examples/09.USB/Keyboard/KeyboardSerial/KeyboardSerial.ino +++ /dev/null @@ -1,39 +0,0 @@ -/* - Keyboard test - - For the Arduino Leonardo, Micro or Due - - Reads a byte from the serial port, sends a keystroke back. - The sent keystroke is one higher than what's received, e.g. if you send a, - you get b, send A you get B, and so forth. - - The circuit: - - none - - created 21 Oct 2011 - modified 27 Mar 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/KeyboardSerial -*/ - -#include "Keyboard.h" - -void setup() { - // open the serial port: - Serial.begin(9600); - // initialize control over the keyboard: - Keyboard.begin(); -} - -void loop() { - // check for incoming serial data: - if (Serial.available() > 0) { - // read incoming serial data: - char inChar = Serial.read(); - // Type the next ASCII value from what you received: - Keyboard.write(inChar + 1); - } -} diff --git a/build/shared/examples/09.USB/Keyboard/KeyboardSerial/KeyboardSerial.txt b/build/shared/examples/09.USB/Keyboard/KeyboardSerial/KeyboardSerial.txt deleted file mode 100644 index e4e3f91d4..000000000 --- a/build/shared/examples/09.USB/Keyboard/KeyboardSerial/KeyboardSerial.txt +++ /dev/null @@ -1 +0,0 @@ -Reads a byte from the serial port, and sends back a keystroke.
\ No newline at end of file diff --git a/build/shared/examples/09.USB/KeyboardAndMouseControl/KeyboardAndMouseControl.ino b/build/shared/examples/09.USB/KeyboardAndMouseControl/KeyboardAndMouseControl.ino deleted file mode 100644 index 971354134..000000000 --- a/build/shared/examples/09.USB/KeyboardAndMouseControl/KeyboardAndMouseControl.ino +++ /dev/null @@ -1,93 +0,0 @@ -/* - KeyboardAndMouseControl - - Controls the mouse from five pushbuttons on an Arduino Leonardo, Micro or Due. - - Hardware: - - five pushbuttons attached to D2, D3, D4, D5, D6 - - The mouse movement is always relative. This sketch reads four pushbuttons, and - uses them to set the movement of the mouse. - - WARNING: When you use the Mouse.move() command, the Arduino takes over your - mouse! Make sure you have control before you use the mouse commands. - - created 15 Mar 2012 - modified 27 Mar 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/KeyboardAndMouseControl -*/ - -#include "Keyboard.h" -#include "Mouse.h" - -// set pin numbers for the five buttons: -const int upButton = 2; -const int downButton = 3; -const int leftButton = 4; -const int rightButton = 5; -const int mouseButton = 6; - -void setup() { // initialize the buttons' inputs: - pinMode(upButton, INPUT); - pinMode(downButton, INPUT); - pinMode(leftButton, INPUT); - pinMode(rightButton, INPUT); - pinMode(mouseButton, INPUT); - - Serial.begin(9600); - // initialize mouse control: - Mouse.begin(); - Keyboard.begin(); -} - -void loop() { - // use serial input to control the mouse: - if (Serial.available() > 0) { - char inChar = Serial.read(); - - switch (inChar) { - case 'u': - // move mouse up - Mouse.move(0, -40); - break; - case 'd': - // move mouse down - Mouse.move(0, 40); - break; - case 'l': - // move mouse left - Mouse.move(-40, 0); - break; - case 'r': - // move mouse right - Mouse.move(40, 0); - break; - case 'm': - // perform mouse left click - Mouse.click(MOUSE_LEFT); - break; - } - } - - // use the pushbuttons to control the keyboard: - if (digitalRead(upButton) == HIGH) { - Keyboard.write('u'); - } - if (digitalRead(downButton) == HIGH) { - Keyboard.write('d'); - } - if (digitalRead(leftButton) == HIGH) { - Keyboard.write('l'); - } - if (digitalRead(rightButton) == HIGH) { - Keyboard.write('r'); - } - if (digitalRead(mouseButton) == HIGH) { - Keyboard.write('m'); - } - -} diff --git a/build/shared/examples/09.USB/KeyboardAndMouseControl/KeyboardAndMouseControl.txt b/build/shared/examples/09.USB/KeyboardAndMouseControl/KeyboardAndMouseControl.txt deleted file mode 100644 index 64745d318..000000000 --- a/build/shared/examples/09.USB/KeyboardAndMouseControl/KeyboardAndMouseControl.txt +++ /dev/null @@ -1 +0,0 @@ -Demonstrates the Mouse and Keyboard commands in one program.
\ No newline at end of file diff --git a/build/shared/examples/09.USB/KeyboardAndMouseControl/layout.png b/build/shared/examples/09.USB/KeyboardAndMouseControl/layout.png Binary files differdeleted file mode 100644 index 45fdc9c07..000000000 --- a/build/shared/examples/09.USB/KeyboardAndMouseControl/layout.png +++ /dev/null diff --git a/build/shared/examples/09.USB/KeyboardAndMouseControl/schematic.png b/build/shared/examples/09.USB/KeyboardAndMouseControl/schematic.png Binary files differdeleted file mode 100644 index 09998b07b..000000000 --- a/build/shared/examples/09.USB/KeyboardAndMouseControl/schematic.png +++ /dev/null diff --git a/build/shared/examples/09.USB/Mouse/ButtonMouseControl/ButtonMouseControl.ino b/build/shared/examples/09.USB/Mouse/ButtonMouseControl/ButtonMouseControl.ino deleted file mode 100644 index 9c78eda55..000000000 --- a/build/shared/examples/09.USB/Mouse/ButtonMouseControl/ButtonMouseControl.ino +++ /dev/null @@ -1,84 +0,0 @@ -/* - ButtonMouseControl - - For Leonardo and Due boards only. - - Controls the mouse from five pushbuttons on an Arduino Leonardo, Micro or Due. - - Hardware: - - five pushbuttons attached to D2, D3, D4, D5, D6 - - The mouse movement is always relative. This sketch reads four pushbuttons, - and uses them to set the movement of the mouse. - - WARNING: When you use the Mouse.move() command, the Arduino takes over your - mouse! Make sure you have control before you use the mouse commands. - - created 15 Mar 2012 - modified 27 Mar 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/ButtonMouseControl -*/ - -#include "Mouse.h" - -// set pin numbers for the five buttons: -const int upButton = 2; -const int downButton = 3; -const int leftButton = 4; -const int rightButton = 5; -const int mouseButton = 6; - -int range = 5; // output range of X or Y movement; affects movement speed -int responseDelay = 10; // response delay of the mouse, in ms - - -void setup() { - // initialize the buttons' inputs: - pinMode(upButton, INPUT); - pinMode(downButton, INPUT); - pinMode(leftButton, INPUT); - pinMode(rightButton, INPUT); - pinMode(mouseButton, INPUT); - // initialize mouse control: - Mouse.begin(); -} - -void loop() { - // read the buttons: - int upState = digitalRead(upButton); - int downState = digitalRead(downButton); - int rightState = digitalRead(rightButton); - int leftState = digitalRead(leftButton); - int clickState = digitalRead(mouseButton); - - // calculate the movement distance based on the button states: - int xDistance = (leftState - rightState) * range; - int yDistance = (upState - downState) * range; - - // if X or Y is non-zero, move: - if ((xDistance != 0) || (yDistance != 0)) { - Mouse.move(xDistance, yDistance, 0); - } - - // if the mouse button is pressed: - if (clickState == HIGH) { - // if the mouse is not pressed, press it: - if (!Mouse.isPressed(MOUSE_LEFT)) { - Mouse.press(MOUSE_LEFT); - } - } - // else the mouse button is not pressed: - else { - // if the mouse is pressed, release it: - if (Mouse.isPressed(MOUSE_LEFT)) { - Mouse.release(MOUSE_LEFT); - } - } - - // a delay so the mouse doesn't move too fast: - delay(responseDelay); -} diff --git a/build/shared/examples/09.USB/Mouse/ButtonMouseControl/ButtonMouseControl.txt b/build/shared/examples/09.USB/Mouse/ButtonMouseControl/ButtonMouseControl.txt deleted file mode 100644 index 20355589b..000000000 --- a/build/shared/examples/09.USB/Mouse/ButtonMouseControl/ButtonMouseControl.txt +++ /dev/null @@ -1 +0,0 @@ -Control cursor movement with 5 pushbuttons.
\ No newline at end of file diff --git a/build/shared/examples/09.USB/Mouse/ButtonMouseControl/layout.png b/build/shared/examples/09.USB/Mouse/ButtonMouseControl/layout.png Binary files differdeleted file mode 100644 index 45fdc9c07..000000000 --- a/build/shared/examples/09.USB/Mouse/ButtonMouseControl/layout.png +++ /dev/null diff --git a/build/shared/examples/09.USB/Mouse/ButtonMouseControl/schematic.png b/build/shared/examples/09.USB/Mouse/ButtonMouseControl/schematic.png Binary files differdeleted file mode 100644 index 09998b07b..000000000 --- a/build/shared/examples/09.USB/Mouse/ButtonMouseControl/schematic.png +++ /dev/null diff --git a/build/shared/examples/09.USB/Mouse/JoystickMouseControl/JoystickMouseControl.ino b/build/shared/examples/09.USB/Mouse/JoystickMouseControl/JoystickMouseControl.ino deleted file mode 100644 index aa608f870..000000000 --- a/build/shared/examples/09.USB/Mouse/JoystickMouseControl/JoystickMouseControl.ino +++ /dev/null @@ -1,120 +0,0 @@ -/* - JoystickMouseControl - - Controls the mouse from a joystick on an Arduino Leonardo, Micro or Due. - Uses a pushbutton to turn on and off mouse control, and a second pushbutton - to click the left mouse button. - - Hardware: - - 2-axis joystick connected to pins A0 and A1 - - pushbuttons connected to pin D2 and D3 - - The mouse movement is always relative. This sketch reads two analog inputs - that range from 0 to 1023 (or less on either end) and translates them into - ranges of -6 to 6. - The sketch assumes that the joystick resting values are around the middle of - the range, but that they vary within a threshold. - - WARNING: When you use the Mouse.move() command, the Arduino takes over your - mouse! Make sure you have control before you use the command. This sketch - includes a pushbutton to toggle the mouse control state, so you can turn on - and off mouse control. - - created 15 Sep 2011 - updated 28 Mar 2012 - by Tom Igoe - - This example code is in the public domain. - - http://www.arduino.cc/en/Tutorial/JoystickMouseControl -*/ - -#include "Mouse.h" - -// set pin numbers for switch, joystick axes, and LED: -const int switchPin = 2; // switch to turn on and off mouse control -const int mouseButton = 3; // input pin for the mouse pushButton -const int xAxis = A0; // joystick X axis -const int yAxis = A1; // joystick Y axis -const int ledPin = 5; // Mouse control LED - -// parameters for reading the joystick: -int range = 12; // output range of X or Y movement -int responseDelay = 5; // response delay of the mouse, in ms -int threshold = range / 4; // resting threshold -int center = range / 2; // resting position value - -bool mouseIsActive = false; // whether or not to control the mouse -int lastSwitchState = LOW; // previous switch state - -void setup() { - pinMode(switchPin, INPUT); // the switch pin - pinMode(ledPin, OUTPUT); // the LED pin - // take control of the mouse: - Mouse.begin(); -} - -void loop() { - // read the switch: - int switchState = digitalRead(switchPin); - // if it's changed and it's high, toggle the mouse state: - if (switchState != lastSwitchState) { - if (switchState == HIGH) { - mouseIsActive = !mouseIsActive; - // turn on LED to indicate mouse state: - digitalWrite(ledPin, mouseIsActive); - } - } - // save switch state for next comparison: - lastSwitchState = switchState; - - // read and scale the two axes: - int xReading = readAxis(A0); - int yReading = readAxis(A1); - - // if the mouse control state is active, move the mouse: - if (mouseIsActive) { - Mouse.move(xReading, yReading, 0); - } - - // read the mouse button and click or not click: - // if the mouse button is pressed: - if (digitalRead(mouseButton) == HIGH) { - // if the mouse is not pressed, press it: - if (!Mouse.isPressed(MOUSE_LEFT)) { - Mouse.press(MOUSE_LEFT); - } - } - // else the mouse button is not pressed: - else { - // if the mouse is pressed, release it: - if (Mouse.isPressed(MOUSE_LEFT)) { - Mouse.release(MOUSE_LEFT); - } - } - - delay(responseDelay); -} - -/* - reads an axis (0 or 1 for x or y) and scales the analog input range to a range - from 0 to <range> -*/ - -int readAxis(int thisAxis) { - // read the analog input: - int reading = analogRead(thisAxis); - - // map the reading from the analog input range to the output range: - reading = map(reading, 0, 1023, 0, range); - - // if the output reading is outside from the rest position threshold, use it: - int distance = reading - center; - - if (abs(distance) < threshold) { - distance = 0; - } - - // return the distance for this axis: - return distance; -} diff --git a/build/shared/examples/09.USB/Mouse/JoystickMouseControl/JoystickMouseControl.txt b/build/shared/examples/09.USB/Mouse/JoystickMouseControl/JoystickMouseControl.txt deleted file mode 100644 index 55fa2bc4c..000000000 --- a/build/shared/examples/09.USB/Mouse/JoystickMouseControl/JoystickMouseControl.txt +++ /dev/null @@ -1 +0,0 @@ -Controls a computer's cursor movement with a Joystick when a button is pressed.
\ No newline at end of file diff --git a/build/shared/examples/09.USB/Mouse/JoystickMouseControl/layout.png b/build/shared/examples/09.USB/Mouse/JoystickMouseControl/layout.png Binary files differdeleted file mode 100644 index 95a4e9529..000000000 --- a/build/shared/examples/09.USB/Mouse/JoystickMouseControl/layout.png +++ /dev/null diff --git a/build/shared/examples/09.USB/Mouse/JoystickMouseControl/schematic.png b/build/shared/examples/09.USB/Mouse/JoystickMouseControl/schematic.png Binary files differdeleted file mode 100644 index ae4ecf122..000000000 --- a/build/shared/examples/09.USB/Mouse/JoystickMouseControl/schematic.png +++ /dev/null diff --git a/build/shared/examples/10.StarterKit_BasicKit/p02_SpaceshipInterface/p02_SpaceshipInterface.ino b/build/shared/examples/10.StarterKit_BasicKit/p02_SpaceshipInterface/p02_SpaceshipInterface.ino deleted file mode 100644 index 41283dad1..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p02_SpaceshipInterface/p02_SpaceshipInterface.ino +++ /dev/null @@ -1,63 +0,0 @@ -/* - Arduino Starter Kit example - Project 2 - Spaceship Interface - - This sketch is written to accompany Project 2 in the Arduino Starter Kit - - Parts required: - - one green LED - - two red LEDs - - pushbutton - - 10 kilohm resistor - - three 220 ohm resistors - - created 13 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -// Create a global variable to hold the state of the switch. This variable is -// persistent throughout the program. Whenever you refer to switchState, you’re -// talking about the number it holds -int switchstate = 0; - -void setup() { - // declare the LED pins as outputs - pinMode(3, OUTPUT); - pinMode(4, OUTPUT); - pinMode(5, OUTPUT); - - // declare the switch pin as an input - pinMode(2, INPUT); -} - -void loop() { - - // read the value of the switch - // digitalRead() checks to see if there is voltage on the pin or not - switchstate = digitalRead(2); - - // if the button is not pressed turn on the green LED and off the red LEDs - if (switchstate == LOW) { - digitalWrite(3, HIGH); // turn the green LED on pin 3 on - digitalWrite(4, LOW); // turn the red LED on pin 4 off - digitalWrite(5, LOW); // turn the red LED on pin 5 off - } - // this else is part of the above if() statement. - // if the switch is not LOW (the button is pressed) turn off the green LED and - // blink alternatively the red LEDs - else { - digitalWrite(3, LOW); // turn the green LED on pin 3 off - digitalWrite(4, LOW); // turn the red LED on pin 4 off - digitalWrite(5, HIGH); // turn the red LED on pin 5 on - // wait for a quarter second before changing the light - delay(250); - digitalWrite(4, HIGH); // turn the red LED on pin 4 on - digitalWrite(5, LOW); // turn the red LED on pin 5 off - // wait for a quarter second before changing the light - delay(250); - } -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p03_LoveOMeter/p03_LoveOMeter.ino b/build/shared/examples/10.StarterKit_BasicKit/p03_LoveOMeter/p03_LoveOMeter.ino deleted file mode 100644 index 2a72f46d7..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p03_LoveOMeter/p03_LoveOMeter.ino +++ /dev/null @@ -1,81 +0,0 @@ -/* - Arduino Starter Kit example - Project 3 - Love-O-Meter - - This sketch is written to accompany Project 3 in the Arduino Starter Kit - - Parts required: - - one TMP36 temperature sensor - - three red LEDs - - three 220 ohm resistors - - created 13 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -// named constant for the pin the sensor is connected to -const int sensorPin = A0; -// room temperature in Celsius -const float baselineTemp = 20.0; - -void setup() { - // open a serial connection to display values - Serial.begin(9600); - // set the LED pins as outputs - // the for() loop saves some extra coding - for (int pinNumber = 2; pinNumber < 5; pinNumber++) { - pinMode(pinNumber, OUTPUT); - digitalWrite(pinNumber, LOW); - } -} - -void loop() { - // read the value on AnalogIn pin 0 and store it in a variable - int sensorVal = analogRead(sensorPin); - - // send the 10-bit sensor value out the serial port - Serial.print("sensor Value: "); - Serial.print(sensorVal); - - // convert the ADC reading to voltage - float voltage = (sensorVal / 1024.0) * 5.0; - - // Send the voltage level out the Serial port - Serial.print(", Volts: "); - Serial.print(voltage); - - // convert the voltage to temperature in degrees C - // the sensor changes 10 mV per degree - // the datasheet says there's a 500 mV offset - // ((voltage - 500 mV) times 100) - Serial.print(", degrees C: "); - float temperature = (voltage - .5) * 100; - Serial.println(temperature); - - // if the current temperature is lower than the baseline turn off all LEDs - if (temperature < baselineTemp + 2) { - digitalWrite(2, LOW); - digitalWrite(3, LOW); - digitalWrite(4, LOW); - } // if the temperature rises 2-4 degrees, turn an LED on - else if (temperature >= baselineTemp + 2 && temperature < baselineTemp + 4) { - digitalWrite(2, HIGH); - digitalWrite(3, LOW); - digitalWrite(4, LOW); - } // if the temperature rises 4-6 degrees, turn a second LED on - else if (temperature >= baselineTemp + 4 && temperature < baselineTemp + 6) { - digitalWrite(2, HIGH); - digitalWrite(3, HIGH); - digitalWrite(4, LOW); - } // if the temperature rises more than 6 degrees, turn all LEDs on - else if (temperature >= baselineTemp + 6) { - digitalWrite(2, HIGH); - digitalWrite(3, HIGH); - digitalWrite(4, HIGH); - } - delay(1); -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p04_ColorMixingLamp/p04_ColorMixingLamp.ino b/build/shared/examples/10.StarterKit_BasicKit/p04_ColorMixingLamp/p04_ColorMixingLamp.ino deleted file mode 100644 index 1e15f1cb3..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p04_ColorMixingLamp/p04_ColorMixingLamp.ino +++ /dev/null @@ -1,96 +0,0 @@ -/* - Arduino Starter Kit example - Project 4 - Color Mixing Lamp - - This sketch is written to accompany Project 3 in the Arduino Starter Kit - - Parts required: - - one RGB LED - - three 10 kilohm resistors - - three 220 ohm resistors - - three photoresistors - - red green and blue colored gels - - created 13 Sep 2012 - modified 14 Nov 2012 - by Scott Fitzgerald - Thanks to Federico Vanzati for improvements - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -const int greenLEDPin = 9; // LED connected to digital pin 9 -const int redLEDPin = 10; // LED connected to digital pin 10 -const int blueLEDPin = 11; // LED connected to digital pin 11 - -const int redSensorPin = A0; // pin with the photoresistor with the red gel -const int greenSensorPin = A1; // pin with the photoresistor with the green gel -const int blueSensorPin = A2; // pin with the photoresistor with the blue gel - -int redValue = 0; // value to write to the red LED -int greenValue = 0; // value to write to the green LED -int blueValue = 0; // value to write to the blue LED - -int redSensorValue = 0; // variable to hold the value from the red sensor -int greenSensorValue = 0; // variable to hold the value from the green sensor -int blueSensorValue = 0; // variable to hold the value from the blue sensor - -void setup() { - // initialize serial communications at 9600 bps: - Serial.begin(9600); - - // set the digital pins as outputs - pinMode(greenLEDPin, OUTPUT); - pinMode(redLEDPin, OUTPUT); - pinMode(blueLEDPin, OUTPUT); -} - -void loop() { - // Read the sensors first: - - // read the value from the red-filtered photoresistor: - redSensorValue = analogRead(redSensorPin); - // give the ADC a moment to settle - delay(5); - // read the value from the green-filtered photoresistor: - greenSensorValue = analogRead(greenSensorPin); - // give the ADC a moment to settle - delay(5); - // read the value from the blue-filtered photoresistor: - blueSensorValue = analogRead(blueSensorPin); - - // print out the values to the Serial Monitor - Serial.print("raw sensor Values \t red: "); - Serial.print(redSensorValue); - Serial.print("\t green: "); - Serial.print(greenSensorValue); - Serial.print("\t Blue: "); - Serial.println(blueSensorValue); - - /* - In order to use the values from the sensor for the LED, you need to do some - math. The ADC provides a 10-bit number, but analogWrite() uses 8 bits. - You'll want to divide your sensor readings by 4 to keep them in range - of the output. - */ - redValue = redSensorValue / 4; - greenValue = greenSensorValue / 4; - blueValue = blueSensorValue / 4; - - // print out the mapped values - Serial.print("Mapped sensor Values \t red: "); - Serial.print(redValue); - Serial.print("\t green: "); - Serial.print(greenValue); - Serial.print("\t Blue: "); - Serial.println(blueValue); - - /* - Now that you have a usable value, it's time to PWM the LED. - */ - analogWrite(redLEDPin, redValue); - analogWrite(greenLEDPin, greenValue); - analogWrite(blueLEDPin, blueValue); -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p05_ServoMoodIndicator/p05_ServoMoodIndicator.ino b/build/shared/examples/10.StarterKit_BasicKit/p05_ServoMoodIndicator/p05_ServoMoodIndicator.ino deleted file mode 100644 index b56e860ef..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p05_ServoMoodIndicator/p05_ServoMoodIndicator.ino +++ /dev/null @@ -1,52 +0,0 @@ -/* - Arduino Starter Kit example - Project 5 - Servo Mood Indicator - - This sketch is written to accompany Project 5 in the Arduino Starter Kit - - Parts required: - - servo motor - - 10 kilohm potentiometer - - two 100 uF electrolytic capacitors - - created 13 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -// include the Servo library -#include <Servo.h> - -Servo myServo; // create a servo object - -int const potPin = A0; // analog pin used to connect the potentiometer -int potVal; // variable to read the value from the analog pin -int angle; // variable to hold the angle for the servo motor - -void setup() { - myServo.attach(9); // attaches the servo on pin 9 to the servo object - Serial.begin(9600); // open a serial connection to your computer -} - -void loop() { - potVal = analogRead(potPin); // read the value of the potentiometer - // print out the value to the Serial Monitor - Serial.print("potVal: "); - Serial.print(potVal); - - // scale the numbers from the pot - angle = map(potVal, 0, 1023, 0, 179); - - // print out the angle for the servo motor - Serial.print(", angle: "); - Serial.println(angle); - - // set the servo position - myServo.write(angle); - - // wait for the servo to get there - delay(15); -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p06_LightTheremin/p06_LightTheremin.ino b/build/shared/examples/10.StarterKit_BasicKit/p06_LightTheremin/p06_LightTheremin.ino deleted file mode 100644 index 6f6475c24..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p06_LightTheremin/p06_LightTheremin.ino +++ /dev/null @@ -1,62 +0,0 @@ -/* - Arduino Starter Kit example - Project 6 - Light Theremin - - This sketch is written to accompany Project 6 in the Arduino Starter Kit - - Parts required: - - photoresistor - - 10 kilohm resistor - - piezo - - created 13 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -// variable to hold sensor value -int sensorValue; -// variable to calibrate low value -int sensorLow = 1023; -// variable to calibrate high value -int sensorHigh = 0; -// LED pin -const int ledPin = 13; - -void setup() { - // Make the LED pin an output and turn it on - pinMode(ledPin, OUTPUT); - digitalWrite(ledPin, HIGH); - - // calibrate for the first five seconds after program runs - while (millis() < 5000) { - // record the maximum sensor value - sensorValue = analogRead(A0); - if (sensorValue > sensorHigh) { - sensorHigh = sensorValue; - } - // record the minimum sensor value - if (sensorValue < sensorLow) { - sensorLow = sensorValue; - } - } - // turn the LED off, signaling the end of the calibration period - digitalWrite(ledPin, LOW); -} - -void loop() { - //read the input from A0 and store it in a variable - sensorValue = analogRead(A0); - - // map the sensor values to a wide range of pitches - int pitch = map(sensorValue, sensorLow, sensorHigh, 50, 4000); - - // play the tone for 20 ms on pin 8 - tone(8, pitch, 20); - - // wait for a moment - delay(10); -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p07_Keyboard/p07_Keyboard.ino b/build/shared/examples/10.StarterKit_BasicKit/p07_Keyboard/p07_Keyboard.ino deleted file mode 100644 index ad39bd198..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p07_Keyboard/p07_Keyboard.ino +++ /dev/null @@ -1,54 +0,0 @@ -/* - Arduino Starter Kit example - Project 7 - Keyboard - - This sketch is written to accompany Project 7 in the Arduino Starter Kit - - Parts required: - - two 10 kilohm resistors - - 1 megohm resistor - - 220 ohm resistor - - four pushbuttons - - piezo - - created 13 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -// create an array of notes -// the numbers below correspond to the frequencies of middle C, D, E, and F -int notes[] = {262, 294, 330, 349}; - -void setup() { - //start serial communication - Serial.begin(9600); -} - -void loop() { - // create a local variable to hold the input on pin A0 - int keyVal = analogRead(A0); - // send the value from A0 to the Serial Monitor - Serial.println(keyVal); - - // play the note corresponding to each value on A0 - if (keyVal == 1023) { - // play the first frequency in the array on pin 8 - tone(8, notes[0]); - } else if (keyVal >= 990 && keyVal <= 1010) { - // play the second frequency in the array on pin 8 - tone(8, notes[1]); - } else if (keyVal >= 505 && keyVal <= 515) { - // play the third frequency in the array on pin 8 - tone(8, notes[2]); - } else if (keyVal >= 5 && keyVal <= 10) { - // play the fourth frequency in the array on pin 8 - tone(8, notes[3]); - } else { - // if the value is out of range, play no tone - noTone(8); - } -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p08_DigitalHourglass/p08_DigitalHourglass.ino b/build/shared/examples/10.StarterKit_BasicKit/p08_DigitalHourglass/p08_DigitalHourglass.ino deleted file mode 100644 index 801f8cd41..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p08_DigitalHourglass/p08_DigitalHourglass.ino +++ /dev/null @@ -1,79 +0,0 @@ -/* - Arduino Starter Kit example - Project 8 - Digital Hourglass - - This sketch is written to accompany Project 8 in the Arduino Starter Kit - - Parts required: - - 10 kilohm resistor - - six 220 ohm resistors - - six LEDs - - tilt switch - - created 13 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -// named constant for the switch pin -const int switchPin = 8; - -unsigned long previousTime = 0; // store the last time an LED was updated -int switchState = 0; // the current switch state -int prevSwitchState = 0; // the previous switch state -int led = 2; // a variable to refer to the LEDs - -// 600000 = 10 minutes in milliseconds -long interval = 600000; // interval at which to light the next LED - -void setup() { - // set the LED pins as outputs - for (int x = 2; x < 8; x++) { - pinMode(x, OUTPUT); - } - // set the tilt switch pin as input - pinMode(switchPin, INPUT); -} - -void loop() { - // store the time since the Arduino started running in a variable - unsigned long currentTime = millis(); - - // compare the current time to the previous time an LED turned on - // if it is greater than your interval, run the if statement - if (currentTime - previousTime > interval) { - // save the current time as the last time you changed an LED - previousTime = currentTime; - // Turn the LED on - digitalWrite(led, HIGH); - // increment the led variable - // in 10 minutes the next LED will light up - led++; - - if (led == 7) { - // the hour is up - } - } - - // read the switch value - switchState = digitalRead(switchPin); - - // if the switch has changed - if (switchState != prevSwitchState) { - // turn all the LEDs low - for (int x = 2; x < 8; x++) { - digitalWrite(x, LOW); - } - - // reset the LED variable to the first one - led = 2; - - //reset the timer - previousTime = currentTime; - } - // set the previous switch state to the current state - prevSwitchState = switchState; -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p09_MotorizedPinwheel/p09_MotorizedPinwheel.ino b/build/shared/examples/10.StarterKit_BasicKit/p09_MotorizedPinwheel/p09_MotorizedPinwheel.ino deleted file mode 100644 index 23e19b1bc..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p09_MotorizedPinwheel/p09_MotorizedPinwheel.ino +++ /dev/null @@ -1,48 +0,0 @@ -/* - Arduino Starter Kit example - Project 9 - Motorized Pinwheel - - This sketch is written to accompany Project 9 in the Arduino Starter Kit - - Parts required: - - 10 kilohm resistor - - pushbutton - - motor - - 9V battery - - IRF520 MOSFET - - 1N4007 diode - - created 13 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -// named constants for the switch and motor pins -const int switchPin = 2; // the number of the switch pin -const int motorPin = 9; // the number of the motor pin - -int switchState = 0; // variable for reading the switch's status - -void setup() { - // initialize the motor pin as an output: - pinMode(motorPin, OUTPUT); - // initialize the switch pin as an input: - pinMode(switchPin, INPUT); -} - -void loop() { - // read the state of the switch value: - switchState = digitalRead(switchPin); - - // check if the switch is pressed. - if (switchState == HIGH) { - // turn motor on: - digitalWrite(motorPin, HIGH); - } else { - // turn motor off: - digitalWrite(motorPin, LOW); - } -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p10_Zoetrope/p10_Zoetrope.ino b/build/shared/examples/10.StarterKit_BasicKit/p10_Zoetrope/p10_Zoetrope.ino deleted file mode 100644 index 4d675ed66..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p10_Zoetrope/p10_Zoetrope.ino +++ /dev/null @@ -1,103 +0,0 @@ -/* - Arduino Starter Kit example - Project 10 - Zoetrope - - This sketch is written to accompany Project 10 in the Arduino Starter Kit - - Parts required: - - two 10 kilohm resistors - - two momentary pushbuttons - - one 10 kilohm potentiometer - - motor - - 9V battery - - H-Bridge - - created 13 Sep 2012 - by Scott Fitzgerald - Thanks to Federico Vanzati for improvements - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -const int controlPin1 = 2; // connected to pin 7 on the H-bridge -const int controlPin2 = 3; // connected to pin 2 on the H-bridge -const int enablePin = 9; // connected to pin 1 on the H-bridge -const int directionSwitchPin = 4; // connected to the switch for direction -const int onOffSwitchStateSwitchPin = 5; // connected to the switch for turning the motor on and off -const int potPin = A0; // connected to the potentiometer's output - -// create some variables to hold values from your inputs -int onOffSwitchState = 0; // current state of the on/off switch -int previousOnOffSwitchState = 0; // previous position of the on/off switch -int directionSwitchState = 0; // current state of the direction switch -int previousDirectionSwitchState = 0; // previous state of the direction switch - -int motorEnabled = 0; // Turns the motor on/off -int motorSpeed = 0; // speed of the motor -int motorDirection = 1; // current direction of the motor - -void setup() { - // initialize the inputs and outputs - pinMode(directionSwitchPin, INPUT); - pinMode(onOffSwitchStateSwitchPin, INPUT); - pinMode(controlPin1, OUTPUT); - pinMode(controlPin2, OUTPUT); - pinMode(enablePin, OUTPUT); - - // pull the enable pin LOW to start - digitalWrite(enablePin, LOW); -} - -void loop() { - // read the value of the on/off switch - onOffSwitchState = digitalRead(onOffSwitchStateSwitchPin); - delay(1); - - // read the value of the direction switch - directionSwitchState = digitalRead(directionSwitchPin); - - // read the value of the pot and divide by 4 to get a value that can be - // used for PWM - motorSpeed = analogRead(potPin) / 4; - - // if the on/off button changed state since the last loop() - if (onOffSwitchState != previousOnOffSwitchState) { - // change the value of motorEnabled if pressed - if (onOffSwitchState == HIGH) { - motorEnabled = !motorEnabled; - } - } - - // if the direction button changed state since the last loop() - if (directionSwitchState != previousDirectionSwitchState) { - // change the value of motorDirection if pressed - if (directionSwitchState == HIGH) { - motorDirection = !motorDirection; - } - } - - // change the direction the motor spins by talking to the control pins - // on the H-Bridge - if (motorDirection == 1) { - digitalWrite(controlPin1, HIGH); - digitalWrite(controlPin2, LOW); - } else { - digitalWrite(controlPin1, LOW); - digitalWrite(controlPin2, HIGH); - } - - // if the motor is supposed to be on - if (motorEnabled == 1) { - // PWM the enable pin to vary the speed - analogWrite(enablePin, motorSpeed); - } else { // if the motor is not supposed to be on - //turn the motor off - analogWrite(enablePin, 0); - } - // save the current on/off switch state as the previous - previousDirectionSwitchState = directionSwitchState; - // save the current switch state as the previous - previousOnOffSwitchState = onOffSwitchState; -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p11_CrystalBall/p11_CrystalBall.ino b/build/shared/examples/10.StarterKit_BasicKit/p11_CrystalBall/p11_CrystalBall.ino deleted file mode 100644 index 63aefc4c4..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p11_CrystalBall/p11_CrystalBall.ino +++ /dev/null @@ -1,114 +0,0 @@ -/* - Arduino Starter Kit example - Project 11 - Crystal Ball - - This sketch is written to accompany Project 11 in the Arduino Starter Kit - - Parts required: - - 220 ohm resistor - - 10 kilohm resistor - - 10 kilohm potentiometer - - 16x2 LCD screen - - tilt switch - - created 13 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -// include the library code: -#include <LiquidCrystal.h> - -// initialize the library with the numbers of the interface pins -LiquidCrystal lcd(12, 11, 5, 4, 3, 2); - -// set up a constant for the tilt switch pin -const int switchPin = 6; - -// variable to hold the value of the switch pin -int switchState = 0; - -// variable to hold previous value of the switch pin -int prevSwitchState = 0; - -// a variable to choose which reply from the crystal ball -int reply; - -void setup() { - // set up the number of columns and rows on the LCD - lcd.begin(16, 2); - - // set up the switch pin as an input - pinMode(switchPin, INPUT); - - // Print a message to the LCD. - lcd.print("Ask the"); - // set the cursor to column 0, line 1 - // line 1 is the second row, since counting begins with 0 - lcd.setCursor(0, 1); - // print to the second line - lcd.print("Crystal Ball!"); -} - -void loop() { - // check the status of the switch - switchState = digitalRead(switchPin); - - // compare the switchState to its previous state - if (switchState != prevSwitchState) { - // if the state has changed from HIGH to LOW you know that the ball has been - // tilted from one direction to the other - if (switchState == LOW) { - // randomly chose a reply - reply = random(8); - // clean up the screen before printing a new reply - lcd.clear(); - // set the cursor to column 0, line 0 - lcd.setCursor(0, 0); - // print some text - lcd.print("the ball says:"); - // move the cursor to the second line - lcd.setCursor(0, 1); - - // choose a saying to print based on the value in reply - switch (reply) { - case 0: - lcd.print("Yes"); - break; - - case 1: - lcd.print("Most likely"); - break; - - case 2: - lcd.print("Certainly"); - break; - - case 3: - lcd.print("Outlook good"); - break; - - case 4: - lcd.print("Unsure"); - break; - - case 5: - lcd.print("Ask again"); - break; - - case 6: - lcd.print("Doubtful"); - break; - - case 7: - lcd.print("No"); - break; - } - } - } - // save the current switch state as the last state - prevSwitchState = switchState; -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p12_KnockLock/p12_KnockLock.ino b/build/shared/examples/10.StarterKit_BasicKit/p12_KnockLock/p12_KnockLock.ino deleted file mode 100644 index 95027ec25..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p12_KnockLock/p12_KnockLock.ino +++ /dev/null @@ -1,171 +0,0 @@ -/* - Arduino Starter Kit example - Project 12 - Knock Lock - - This sketch is written to accompany Project 12 in the Arduino Starter Kit - - Parts required: - - 1 megohm resistor - - 10 kilohm resistor - - three 220 ohm resistors - - piezo - - servo motor - - push button - - one red LED - - one yellow LED - - one green LED - - 100 uF capacitor - - created 18 Sep 2012 - by Scott Fitzgerald - Thanks to Federico Vanzati for improvements - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -// import the library -#include <Servo.h> -// create an instance of the Servo library -Servo myServo; - -const int piezo = A0; // pin the piezo is attached to -const int switchPin = 2; // pin the switch is attached to -const int yellowLed = 3; // pin the yellow LED is attached to -const int greenLed = 4; // pin the green LED is attached to -const int redLed = 5; // pin the red LED is attached to - -// variable for the piezo value -int knockVal; -// variable for the switch value -int switchVal; - -// variables for the high and low limits of the knock value -const int quietKnock = 10; -const int loudKnock = 100; - -// variable to indicate if locked or not -bool locked = false; -// how many valid knocks you've received -int numberOfKnocks = 0; - -void setup() { - // attach the servo to pin 9 - myServo.attach(9); - - // make the LED pins outputs - pinMode(yellowLed, OUTPUT); - pinMode(redLed, OUTPUT); - pinMode(greenLed, OUTPUT); - - // set the switch pin as an input - pinMode(switchPin, INPUT); - - // start serial communication for debugging - Serial.begin(9600); - - // turn the green LED on - digitalWrite(greenLed, HIGH); - - // move the servo to the unlocked position - myServo.write(0); - - // print status to the Serial Monitor - Serial.println("the box is unlocked!"); -} - -void loop() { - - // if the box is unlocked - if (locked == false) { - - // read the value of the switch pin - switchVal = digitalRead(switchPin); - - // if the button is pressed, lock the box - if (switchVal == HIGH) { - // set the locked variable to "true" - locked = true; - - // change the status LEDs - digitalWrite(greenLed, LOW); - digitalWrite(redLed, HIGH); - - // move the servo to the locked position - myServo.write(90); - - // print out status - Serial.println("the box is locked!"); - - // wait for the servo to move into position - delay(1000); - } - } - - // if the box is locked - if (locked == true) { - - // check the value of the piezo - knockVal = analogRead(piezo); - - // if there are not enough valid knocks - if (numberOfKnocks < 3 && knockVal > 0) { - - // check to see if the knock is in range - if (checkForKnock(knockVal) == true) { - - // increment the number of valid knocks - numberOfKnocks++; - } - - // print status of knocks - Serial.print(3 - numberOfKnocks); - Serial.println(" more knocks to go"); - } - - // if there are three knocks - if (numberOfKnocks >= 3) { - // unlock the box - locked = false; - - // move the servo to the unlocked position - myServo.write(0); - - // wait for it to move - delay(20); - - // change status LEDs - digitalWrite(greenLed, HIGH); - digitalWrite(redLed, LOW); - Serial.println("the box is unlocked!"); - - numberOfKnocks = 0; - } - } -} - -// this function checks to see if a detected knock is within max and min range -bool checkForKnock(int value) { - // if the value of the knock is greater than the minimum, and larger - // than the maximum - if (value > quietKnock && value < loudKnock) { - // turn the status LED on - digitalWrite(yellowLed, HIGH); - delay(50); - digitalWrite(yellowLed, LOW); - // print out the status - Serial.print("Valid knock of value "); - Serial.println(value); - // return true - return true; - } - // if the knock is not within range - else { - // print status - Serial.print("Bad knock value "); - Serial.println(value); - // return false - return false; - } -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p13_TouchSensorLamp/p13_TouchSensorLamp.ino b/build/shared/examples/10.StarterKit_BasicKit/p13_TouchSensorLamp/p13_TouchSensorLamp.ino deleted file mode 100644 index 8f7a28a5b..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p13_TouchSensorLamp/p13_TouchSensorLamp.ino +++ /dev/null @@ -1,66 +0,0 @@ -/* - Arduino Starter Kit example - Project 13 - Touch Sensor Lamp - - This sketch is written to accompany Project 13 in the Arduino Starter Kit - - Parts required: - - 1 megohm resistor - - metal foil or copper mesh - - 220 ohm resistor - - LED - - Software required : - - CapacitiveSensor library by Paul Badger - http://www.arduino.cc/playground/Main/CapacitiveSensor - - created 18 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -// import the library (must be located in the Arduino/libraries directory) -#include <CapacitiveSensor.h> - -// create an instance of the library -// pin 4 sends electrical energy -// pin 2 senses senses a change -CapacitiveSensor capSensor = CapacitiveSensor(4, 2); - -// threshold for turning the lamp on -int threshold = 1000; - -// pin the LED is connected to -const int ledPin = 12; - - -void setup() { - // open a serial connection - Serial.begin(9600); - // set the LED pin as an output - pinMode(ledPin, OUTPUT); -} - -void loop() { - // store the value reported by the sensor in a variable - long sensorValue = capSensor.capacitiveSensor(30); - - // print out the sensor value - Serial.println(sensorValue); - - // if the value is greater than the threshold - if (sensorValue > threshold) { - // turn the LED on - digitalWrite(ledPin, HIGH); - } - // if it's lower than the threshold - else { - // turn the LED off - digitalWrite(ledPin, LOW); - } - - delay(10); -} diff --git a/build/shared/examples/10.StarterKit_BasicKit/p14_TweakTheArduinoLogo/p14_TweakTheArduinoLogo.ino b/build/shared/examples/10.StarterKit_BasicKit/p14_TweakTheArduinoLogo/p14_TweakTheArduinoLogo.ino deleted file mode 100644 index e9279e2d6..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p14_TweakTheArduinoLogo/p14_TweakTheArduinoLogo.ino +++ /dev/null @@ -1,101 +0,0 @@ -/* - Arduino Starter Kit example - Project 14 - Tweak the Arduino Logo - - This sketch is written to accompany Project 14 in the Arduino Starter Kit - - Parts required: - - 10 kilohm potentiometer - - Software required: - - Processing (3.0 or newer) http://processing.org - - Active Internet connection - - created 18 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - - -void setup() { - // initialize serial communication - Serial.begin(9600); -} - -void loop() { - // read the value of A0, divide by 4 and send it as a byte over the - // serial connection - Serial.write(analogRead(A0) / 4); - delay(1); -} - -/* Processing code for this example - - // Tweak the Arduino Logo - - // by Scott Fitzgerald - // This example code is in the public domain. - - // import the serial library - import processing.serial.*; - - // create an instance of the serial library - Serial myPort; - - // create an instance of PImage - PImage logo; - - // a variable to hold the background color - int bgcolor = 0; - - void setup() { - size(1, 1); - surface.setResizable(true); - // set the color mode to Hue/Saturation/Brightness - colorMode(HSB, 255); - - // load the Arduino logo into the PImage instance - logo = loadImage("http://www.arduino.cc/arduino_logo.png"); - - // make the window the same size as the image - surface.setSize(logo.width, logo.height); - - // print a list of available serial ports to the Processing status window - println("Available serial ports:"); - println(Serial.list()); - - // Tell the serial object the information it needs to communicate with the - // Arduino. Change Serial.list()[0] to the correct port corresponding to - // your Arduino board. The last parameter (e.g. 9600) is the speed of the - // communication. It has to correspond to the value passed to - // Serial.begin() in your Arduino sketch. - myPort = new Serial(this, Serial.list()[0], 9600); - - // If you know the name of the port used by the Arduino board, you can - // specify it directly like this. - // port = new Serial(this, "COM1", 9600); - } - - void draw() { - - // if there is information in the serial port - if ( myPort.available() > 0) { - // read the value and store it in a variable - bgcolor = myPort.read(); - - // print the value to the status window - println(bgcolor); - } - - // Draw the background. the variable bgcolor contains the Hue, determined by - // the value from the serial port - background(bgcolor, 255, 255); - - // draw the Arduino logo - image(logo, 0, 0); - } - -*/ diff --git a/build/shared/examples/10.StarterKit_BasicKit/p15_HackingButtons/p15_HackingButtons.ino b/build/shared/examples/10.StarterKit_BasicKit/p15_HackingButtons/p15_HackingButtons.ino deleted file mode 100644 index d5d530a2b..000000000 --- a/build/shared/examples/10.StarterKit_BasicKit/p15_HackingButtons/p15_HackingButtons.ino +++ /dev/null @@ -1,34 +0,0 @@ -/* - Arduino Starter Kit example - Project 15 - Hacking Buttons - - This sketch is written to accompany Project 15 in the Arduino Starter Kit - - Parts required: - - battery powered component - - 220 ohm resistor - - 4N35 optocoupler - - created 18 Sep 2012 - by Scott Fitzgerald - - http://www.arduino.cc/starterKit - - This example code is part of the public domain. -*/ - -const int optoPin = 2; // the pin the optocoupler is connected to - -void setup() { - // make the pin with the optocoupler an output - pinMode(optoPin, OUTPUT); -} - -void loop() { - digitalWrite(optoPin, HIGH); // pull pin 2 HIGH, activating the optocoupler - - delay(15); // give the optocoupler a moment to activate - - digitalWrite(optoPin, LOW); // pull pin 2 low until you're ready to activate again - delay(21000); // wait for 21 seconds -} diff --git a/build/shared/examples/11.ArduinoISP/ArduinoISP/ArduinoISP.ino b/build/shared/examples/11.ArduinoISP/ArduinoISP/ArduinoISP.ino deleted file mode 100644 index 8caa58eab..000000000 --- a/build/shared/examples/11.ArduinoISP/ArduinoISP/ArduinoISP.ino +++ /dev/null @@ -1,719 +0,0 @@ -// ArduinoISP -// Copyright (c) 2008-2011 Randall Bohn -// If you require a license, see -// http://www.opensource.org/licenses/bsd-license.php -// -// This sketch turns the Arduino into a AVRISP using the following Arduino pins: -// -// Pin 10 is used to reset the target microcontroller. -// -// By default, the hardware SPI pins MISO, MOSI and SCK are used to communicate -// with the target. On all Arduinos, these pins can be found -// on the ICSP/SPI header: -// -// MISO °. . 5V (!) Avoid this pin on Due, Zero... -// SCK . . MOSI -// . . GND -// -// On some Arduinos (Uno,...), pins MOSI, MISO and SCK are the same pins as -// digital pin 11, 12 and 13, respectively. That is why many tutorials instruct -// you to hook up the target to these pins. If you find this wiring more -// practical, have a define USE_OLD_STYLE_WIRING. This will work even when not -// using an Uno. (On an Uno this is not needed). -// -// Alternatively you can use any other digital pin by configuring -// software ('BitBanged') SPI and having appropriate defines for PIN_MOSI, -// PIN_MISO and PIN_SCK. -// -// IMPORTANT: When using an Arduino that is not 5V tolerant (Due, Zero, ...) as -// the programmer, make sure to not expose any of the programmer's pins to 5V. -// A simple way to accomplish this is to power the complete system (programmer -// and target) at 3V3. -// -// Put an LED (with resistor) on the following pins: -// 9: Heartbeat - shows the programmer is running -// 8: Error - Lights up if something goes wrong (use red if that makes sense) -// 7: Programming - In communication with the slave -// - -#include "Arduino.h" -#undef SERIAL - - -#define PROG_FLICKER true - -// Configure SPI clock (in Hz). -// E.g. for an ATtiny @ 128 kHz: the datasheet states that both the high and low -// SPI clock pulse must be > 2 CPU cycles, so take 3 cycles i.e. divide target -// f_cpu by 6: -// #define SPI_CLOCK (128000/6) -// -// A clock slow enough for an ATtiny85 @ 1 MHz, is a reasonable default: - -#define SPI_CLOCK (1000000/6) - - -// Select hardware or software SPI, depending on SPI clock. -// Currently only for AVR, for other architectures (Due, Zero,...), hardware SPI -// is probably too fast anyway. - -#if defined(ARDUINO_ARCH_AVR) - -#if SPI_CLOCK > (F_CPU / 128) -#define USE_HARDWARE_SPI -#endif - -#endif - -// Configure which pins to use: - -// The standard pin configuration. -#ifndef ARDUINO_HOODLOADER2 - -#define RESET 10 // Use pin 10 to reset the target rather than SS -#define LED_HB 9 -#define LED_ERR 8 -#define LED_PMODE 7 - -// Uncomment following line to use the old Uno style wiring -// (using pin 11, 12 and 13 instead of the SPI header) on Leonardo, Due... - -// #define USE_OLD_STYLE_WIRING - -#ifdef USE_OLD_STYLE_WIRING - -#define PIN_MOSI 11 -#define PIN_MISO 12 -#define PIN_SCK 13 - -#endif - -// HOODLOADER2 means running sketches on the ATmega16U2 serial converter chips -// on Uno or Mega boards. We must use pins that are broken out: -#else - -#define RESET 4 -#define LED_HB 7 -#define LED_ERR 6 -#define LED_PMODE 5 - -#endif - -// By default, use hardware SPI pins: -#ifndef PIN_MOSI -#define PIN_MOSI MOSI -#endif - -#ifndef PIN_MISO -#define PIN_MISO MISO -#endif - -#ifndef PIN_SCK -#define PIN_SCK SCK -#endif - -// Force bitbanged SPI if not using the hardware SPI pins: -#if (PIN_MISO != MISO) || (PIN_MOSI != MOSI) || (PIN_SCK != SCK) -#undef USE_HARDWARE_SPI -#endif - - -// Configure the serial port to use. -// -// Prefer the USB virtual serial port (aka. native USB port), if the Arduino has one: -// - it does not autoreset (except for the magic baud rate of 1200). -// - it is more reliable because of USB handshaking. -// -// Leonardo and similar have an USB virtual serial port: 'Serial'. -// Due and Zero have an USB virtual serial port: 'SerialUSB'. -// -// On the Due and Zero, 'Serial' can be used too, provided you disable autoreset. -// To use 'Serial': #define SERIAL Serial - -#ifdef SERIAL_PORT_USBVIRTUAL -#define SERIAL SERIAL_PORT_USBVIRTUAL -#else -#define SERIAL Serial -#endif - - -// Configure the baud rate: - -#define BAUDRATE 19200 -// #define BAUDRATE 115200 -// #define BAUDRATE 1000000 - - -#define HWVER 2 -#define SWMAJ 1 -#define SWMIN 18 - -// STK Definitions -#define STK_OK 0x10 -#define STK_FAILED 0x11 -#define STK_UNKNOWN 0x12 -#define STK_INSYNC 0x14 -#define STK_NOSYNC 0x15 -#define CRC_EOP 0x20 //ok it is a space... - -void pulse(int pin, int times); - -#ifdef USE_HARDWARE_SPI -#include "SPI.h" -#else - -#define SPI_MODE0 0x00 - -class SPISettings { - public: - // clock is in Hz - SPISettings(uint32_t clock, uint8_t bitOrder, uint8_t dataMode) : clock(clock) { - (void) bitOrder; - (void) dataMode; - }; - - private: - uint32_t clock; - - friend class BitBangedSPI; -}; - -class BitBangedSPI { - public: - void begin() { - digitalWrite(PIN_SCK, LOW); - digitalWrite(PIN_MOSI, LOW); - pinMode(PIN_SCK, OUTPUT); - pinMode(PIN_MOSI, OUTPUT); - pinMode(PIN_MISO, INPUT); - } - - void beginTransaction(SPISettings settings) { - pulseWidth = (500000 + settings.clock - 1) / settings.clock; - if (pulseWidth == 0) - pulseWidth = 1; - } - - void end() {} - - uint8_t transfer (uint8_t b) { - for (unsigned int i = 0; i < 8; ++i) { - digitalWrite(PIN_MOSI, (b & 0x80) ? HIGH : LOW); - digitalWrite(PIN_SCK, HIGH); - delayMicroseconds(pulseWidth); - b = (b << 1) | digitalRead(PIN_MISO); - digitalWrite(PIN_SCK, LOW); // slow pulse - delayMicroseconds(pulseWidth); - } - return b; - } - - private: - unsigned long pulseWidth; // in microseconds -}; - -static BitBangedSPI SPI; - -#endif - -void setup() { - SERIAL.begin(BAUDRATE); - - pinMode(LED_PMODE, OUTPUT); - pulse(LED_PMODE, 2); - pinMode(LED_ERR, OUTPUT); - pulse(LED_ERR, 2); - pinMode(LED_HB, OUTPUT); - pulse(LED_HB, 2); - -} - -int error = 0; -int pmode = 0; -// address for reading and writing, set by 'U' command -unsigned int here; -uint8_t buff[256]; // global block storage - -#define beget16(addr) (*addr * 256 + *(addr+1) ) -typedef struct param { - uint8_t devicecode; - uint8_t revision; - uint8_t progtype; - uint8_t parmode; - uint8_t polling; - uint8_t selftimed; - uint8_t lockbytes; - uint8_t fusebytes; - uint8_t flashpoll; - uint16_t eeprompoll; - uint16_t pagesize; - uint16_t eepromsize; - uint32_t flashsize; -} -parameter; - -parameter param; - -// this provides a heartbeat on pin 9, so you can tell the software is running. -uint8_t hbval = 128; -int8_t hbdelta = 8; -void heartbeat() { - static unsigned long last_time = 0; - unsigned long now = millis(); - if ((now - last_time) < 40) - return; - last_time = now; - if (hbval > 192) hbdelta = -hbdelta; - if (hbval < 32) hbdelta = -hbdelta; - hbval += hbdelta; - analogWrite(LED_HB, hbval); -} - -static bool rst_active_high; - -void reset_target(bool reset) { - digitalWrite(RESET, ((reset && rst_active_high) || (!reset && !rst_active_high)) ? HIGH : LOW); -} - -void loop(void) { - // is pmode active? - if (pmode) { - digitalWrite(LED_PMODE, HIGH); - } else { - digitalWrite(LED_PMODE, LOW); - } - // is there an error? - if (error) { - digitalWrite(LED_ERR, HIGH); - } else { - digitalWrite(LED_ERR, LOW); - } - - // light the heartbeat LED - heartbeat(); - if (SERIAL.available()) { - avrisp(); - } -} - -uint8_t getch() { - while (!SERIAL.available()); - return SERIAL.read(); -} -void fill(int n) { - for (int x = 0; x < n; x++) { - buff[x] = getch(); - } -} - -#define PTIME 30 -void pulse(int pin, int times) { - do { - digitalWrite(pin, HIGH); - delay(PTIME); - digitalWrite(pin, LOW); - delay(PTIME); - } while (times--); -} - -void prog_lamp(int state) { - if (PROG_FLICKER) { - digitalWrite(LED_PMODE, state); - } -} - -uint8_t spi_transaction(uint8_t a, uint8_t b, uint8_t c, uint8_t d) { - SPI.transfer(a); - SPI.transfer(b); - SPI.transfer(c); - return SPI.transfer(d); -} - -void empty_reply() { - if (CRC_EOP == getch()) { - SERIAL.print((char)STK_INSYNC); - SERIAL.print((char)STK_OK); - } else { - error++; - SERIAL.print((char)STK_NOSYNC); - } -} - -void breply(uint8_t b) { - if (CRC_EOP == getch()) { - SERIAL.print((char)STK_INSYNC); - SERIAL.print((char)b); - SERIAL.print((char)STK_OK); - } else { - error++; - SERIAL.print((char)STK_NOSYNC); - } -} - -void get_version(uint8_t c) { - switch (c) { - case 0x80: - breply(HWVER); - break; - case 0x81: - breply(SWMAJ); - break; - case 0x82: - breply(SWMIN); - break; - case 0x93: - breply('S'); // serial programmer - break; - default: - breply(0); - } -} - -void set_parameters() { - // call this after reading parameter packet into buff[] - param.devicecode = buff[0]; - param.revision = buff[1]; - param.progtype = buff[2]; - param.parmode = buff[3]; - param.polling = buff[4]; - param.selftimed = buff[5]; - param.lockbytes = buff[6]; - param.fusebytes = buff[7]; - param.flashpoll = buff[8]; - // ignore buff[9] (= buff[8]) - // following are 16 bits (big endian) - param.eeprompoll = beget16(&buff[10]); - param.pagesize = beget16(&buff[12]); - param.eepromsize = beget16(&buff[14]); - - // 32 bits flashsize (big endian) - param.flashsize = buff[16] * 0x01000000 - + buff[17] * 0x00010000 - + buff[18] * 0x00000100 - + buff[19]; - - // AVR devices have active low reset, AT89Sx are active high - rst_active_high = (param.devicecode >= 0xe0); -} - -void start_pmode() { - - // Reset target before driving PIN_SCK or PIN_MOSI - - // SPI.begin() will configure SS as output, so SPI master mode is selected. - // We have defined RESET as pin 10, which for many Arduinos is not the SS pin. - // So we have to configure RESET as output here, - // (reset_target() first sets the correct level) - reset_target(true); - pinMode(RESET, OUTPUT); - SPI.begin(); - SPI.beginTransaction(SPISettings(SPI_CLOCK, MSBFIRST, SPI_MODE0)); - - // See AVR datasheets, chapter "SERIAL_PRG Programming Algorithm": - - // Pulse RESET after PIN_SCK is low: - digitalWrite(PIN_SCK, LOW); - delay(20); // discharge PIN_SCK, value arbitrarily chosen - reset_target(false); - // Pulse must be minimum 2 target CPU clock cycles so 100 usec is ok for CPU - // speeds above 20 KHz - delayMicroseconds(100); - reset_target(true); - - // Send the enable programming command: - delay(50); // datasheet: must be > 20 msec - spi_transaction(0xAC, 0x53, 0x00, 0x00); - pmode = 1; -} - -void end_pmode() { - SPI.end(); - // We're about to take the target out of reset so configure SPI pins as input - pinMode(PIN_MOSI, INPUT); - pinMode(PIN_SCK, INPUT); - reset_target(false); - pinMode(RESET, INPUT); - pmode = 0; -} - -void universal() { - uint8_t ch; - - fill(4); - ch = spi_transaction(buff[0], buff[1], buff[2], buff[3]); - breply(ch); -} - -void flash(uint8_t hilo, unsigned int addr, uint8_t data) { - spi_transaction(0x40 + 8 * hilo, - addr >> 8 & 0xFF, - addr & 0xFF, - data); -} -void commit(unsigned int addr) { - if (PROG_FLICKER) { - prog_lamp(LOW); - } - spi_transaction(0x4C, (addr >> 8) & 0xFF, addr & 0xFF, 0); - if (PROG_FLICKER) { - delay(PTIME); - prog_lamp(HIGH); - } -} - -unsigned int current_page() { - if (param.pagesize == 32) { - return here & 0xFFFFFFF0; - } - if (param.pagesize == 64) { - return here & 0xFFFFFFE0; - } - if (param.pagesize == 128) { - return here & 0xFFFFFFC0; - } - if (param.pagesize == 256) { - return here & 0xFFFFFF80; - } - return here; -} - - -void write_flash(int length) { - fill(length); - if (CRC_EOP == getch()) { - SERIAL.print((char) STK_INSYNC); - SERIAL.print((char) write_flash_pages(length)); - } else { - error++; - SERIAL.print((char) STK_NOSYNC); - } -} - -uint8_t write_flash_pages(int length) { - int x = 0; - unsigned int page = current_page(); - while (x < length) { - if (page != current_page()) { - commit(page); - page = current_page(); - } - flash(LOW, here, buff[x++]); - flash(HIGH, here, buff[x++]); - here++; - } - - commit(page); - - return STK_OK; -} - -#define EECHUNK (32) -uint8_t write_eeprom(unsigned int length) { - // here is a word address, get the byte address - unsigned int start = here * 2; - unsigned int remaining = length; - if (length > param.eepromsize) { - error++; - return STK_FAILED; - } - while (remaining > EECHUNK) { - write_eeprom_chunk(start, EECHUNK); - start += EECHUNK; - remaining -= EECHUNK; - } - write_eeprom_chunk(start, remaining); - return STK_OK; -} -// write (length) bytes, (start) is a byte address -uint8_t write_eeprom_chunk(unsigned int start, unsigned int length) { - // this writes byte-by-byte, page writing may be faster (4 bytes at a time) - fill(length); - prog_lamp(LOW); - for (unsigned int x = 0; x < length; x++) { - unsigned int addr = start + x; - spi_transaction(0xC0, (addr >> 8) & 0xFF, addr & 0xFF, buff[x]); - delay(45); - } - prog_lamp(HIGH); - return STK_OK; -} - -void program_page() { - char result = (char) STK_FAILED; - unsigned int length = 256 * getch(); - length += getch(); - char memtype = getch(); - // flash memory @here, (length) bytes - if (memtype == 'F') { - write_flash(length); - return; - } - if (memtype == 'E') { - result = (char)write_eeprom(length); - if (CRC_EOP == getch()) { - SERIAL.print((char) STK_INSYNC); - SERIAL.print(result); - } else { - error++; - SERIAL.print((char) STK_NOSYNC); - } - return; - } - SERIAL.print((char)STK_FAILED); - return; -} - -uint8_t flash_read(uint8_t hilo, unsigned int addr) { - return spi_transaction(0x20 + hilo * 8, - (addr >> 8) & 0xFF, - addr & 0xFF, - 0); -} - -char flash_read_page(int length) { - for (int x = 0; x < length; x += 2) { - uint8_t low = flash_read(LOW, here); - SERIAL.print((char) low); - uint8_t high = flash_read(HIGH, here); - SERIAL.print((char) high); - here++; - } - return STK_OK; -} - -char eeprom_read_page(int length) { - // here again we have a word address - int start = here * 2; - for (int x = 0; x < length; x++) { - int addr = start + x; - uint8_t ee = spi_transaction(0xA0, (addr >> 8) & 0xFF, addr & 0xFF, 0xFF); - SERIAL.print((char) ee); - } - return STK_OK; -} - -void read_page() { - char result = (char)STK_FAILED; - int length = 256 * getch(); - length += getch(); - char memtype = getch(); - if (CRC_EOP != getch()) { - error++; - SERIAL.print((char) STK_NOSYNC); - return; - } - SERIAL.print((char) STK_INSYNC); - if (memtype == 'F') result = flash_read_page(length); - if (memtype == 'E') result = eeprom_read_page(length); - SERIAL.print(result); -} - -void read_signature() { - if (CRC_EOP != getch()) { - error++; - SERIAL.print((char) STK_NOSYNC); - return; - } - SERIAL.print((char) STK_INSYNC); - uint8_t high = spi_transaction(0x30, 0x00, 0x00, 0x00); - SERIAL.print((char) high); - uint8_t middle = spi_transaction(0x30, 0x00, 0x01, 0x00); - SERIAL.print((char) middle); - uint8_t low = spi_transaction(0x30, 0x00, 0x02, 0x00); - SERIAL.print((char) low); - SERIAL.print((char) STK_OK); -} -////////////////////////////////////////// -////////////////////////////////////////// - - -//////////////////////////////////// -//////////////////////////////////// -void avrisp() { - uint8_t ch = getch(); - switch (ch) { - case '0': // signon - error = 0; - empty_reply(); - break; - case '1': - if (getch() == CRC_EOP) { - SERIAL.print((char) STK_INSYNC); - SERIAL.print("AVR ISP"); - SERIAL.print((char) STK_OK); - } - else { - error++; - SERIAL.print((char) STK_NOSYNC); - } - break; - case 'A': - get_version(getch()); - break; - case 'B': - fill(20); - set_parameters(); - empty_reply(); - break; - case 'E': // extended parameters - ignore for now - fill(5); - empty_reply(); - break; - case 'P': - if (!pmode) - start_pmode(); - empty_reply(); - break; - case 'U': // set address (word) - here = getch(); - here += 256 * getch(); - empty_reply(); - break; - - case 0x60: //STK_PROG_FLASH - getch(); // low addr - getch(); // high addr - empty_reply(); - break; - case 0x61: //STK_PROG_DATA - getch(); // data - empty_reply(); - break; - - case 0x64: //STK_PROG_PAGE - program_page(); - break; - - case 0x74: //STK_READ_PAGE 't' - read_page(); - break; - - case 'V': //0x56 - universal(); - break; - case 'Q': //0x51 - error = 0; - end_pmode(); - empty_reply(); - break; - - case 0x75: //STK_READ_SIGN 'u' - read_signature(); - break; - - // expecting a command, not CRC_EOP - // this is how we can get back in sync - case CRC_EOP: - error++; - SERIAL.print((char) STK_NOSYNC); - break; - - // anything else we will return STK_UNKNOWN - default: - error++; - if (CRC_EOP == getch()) - SERIAL.print((char)STK_UNKNOWN); - else - SERIAL.print((char)STK_NOSYNC); - } -} diff --git a/build/shared/examples/README.md b/build/shared/examples/README.md new file mode 100644 index 000000000..6197c437a --- /dev/null +++ b/build/shared/examples/README.md @@ -0,0 +1,6 @@ +### Built-in examples have been moved + +Originally, the main Arduino repository contained the built-in examples in this +directory. Since then, these have been moved to: + +https://github.com/arduino/arduino-examples diff --git a/build/shared/examples_formatter.conf b/build/shared/examples_formatter.conf deleted file mode 100644 index e006d1f2f..000000000 --- a/build/shared/examples_formatter.conf +++ /dev/null @@ -1,45 +0,0 @@ -# This configuration file contains a selection of the available options provided by the formatting tool "Artistic Style" -# http://astyle.sourceforge.net/astyle.html -# -# If you wish to change them, don't edit this file. -# Instead, copy it in the same folder of file "preferences.txt" and modify the copy. This way, you won't lose your custom formatter settings when upgrading the IDE -# If you don't know where file preferences.txt is stored, open the IDE, File -> Preferences and you'll find a link - -mode=c - -# 2 spaces indentation -indent=spaces=2 - -# also indent macros -indent-preprocessor - -# indent classes, switches (and cases), comments starting at column 1 -indent-classes -indent-switches -indent-cases -indent-col1-comments - -# put a space around operators -pad-oper - -# put a space after if/for/while -pad-header - -# if you like one-liners, keep them -keep-one-line-statements - -style=java -attach-namespaces -attach-classes -attach-inlines -attach-extern-c -indent-modifiers -indent-namespaces -indent-labels -indent-preproc-block -indent-preproc-define -indent-preproc-cond -unpad-paren -add-brackets -remove-comment-prefix - diff --git a/build/shared/examples_formatter.sh b/build/shared/examples_formatter.sh deleted file mode 100755 index 01e0fe5b3..000000000 --- a/build/shared/examples_formatter.sh +++ /dev/null @@ -1,2 +0,0 @@ -# you need to have astyle installed before running this -find examples -name '*.ino' -exec astyle --options=examples_formatter.conf {} \; |
