diff options
author | Federico Fissore <f.fissore@arduino.cc> | 2015-07-06 15:18:33 +0200 |
---|---|---|
committer | Federico Fissore <f.fissore@arduino.cc> | 2015-07-06 15:19:05 +0200 |
commit | b5a130afb51c971fd7ceca8834b6055f1eada253 (patch) | |
tree | d1e964f67822e9b3f10382573a9579c85b9c3e3f /libraries | |
parent | c13cf02651e178ea7941a82bee364d82c6b19b9c (diff) |
Examples: mass code format. See example_formatter.conf
Diffstat (limited to 'libraries')
18 files changed, 179 insertions, 188 deletions
diff --git a/libraries/EEPROM/examples/eeprom_clear/eeprom_clear.ino b/libraries/EEPROM/examples/eeprom_clear/eeprom_clear.ino index 49eb5fe..73d64a7 100644 --- a/libraries/EEPROM/examples/eeprom_clear/eeprom_clear.ino +++ b/libraries/EEPROM/examples/eeprom_clear/eeprom_clear.ino @@ -10,26 +10,28 @@ #include <EEPROM.h> -void setup() -{ +void setup() { /*** - Iterate through each byte of the EEPROM storage. - + Iterate through each byte of the EEPROM storage. + Larger AVR processors have larger EEPROM sizes, E.g: - Arduno Duemilanove: 512b EEPROM storage. - Arduino Uno: 1kb EEPROM storage. - Arduino Mega: 4kb EEPROM storage. - + Rather than hard-coding the length, you should use the pre-provided length function. - This will make your code portable to all AVR processors. + This will make your code portable to all AVR processors. ***/ - - for ( int i = 0 ; i < EEPROM.length() ; i++ ) + + for (int i = 0 ; i < EEPROM.length() ; i++) { EEPROM.write(i, 0); + } // turn the LED on when we're done digitalWrite(13, HIGH); } -void loop(){ /** Empty loop. **/ } +void loop() { + /** Empty loop. **/ +} diff --git a/libraries/EEPROM/examples/eeprom_crc/eeprom_crc.ino b/libraries/EEPROM/examples/eeprom_crc/eeprom_crc.ino index 8461d56..d14b4b3 100644 --- a/libraries/EEPROM/examples/eeprom_crc/eeprom_crc.ino +++ b/libraries/EEPROM/examples/eeprom_crc/eeprom_crc.ino @@ -1,7 +1,7 @@ /*** Written by Christopher Andrews. CRC algorithm generated by pycrc, MIT licence ( https://github.com/tpircher/pycrc ). - + A CRC is a simple way of checking whether data has changed or become corrupted. This example calculates a CRC value directly on the EEPROM values. The purpose of this example is to highlight how the EEPROM object can be used just like an array. @@ -10,8 +10,8 @@ #include <Arduino.h> #include <EEPROM.h> -void setup(){ - +void setup() { + //Start serial Serial.begin(9600); while (!Serial) { @@ -19,31 +19,33 @@ void setup(){ } //Print length of data to run CRC on. - Serial.print( "EEPROM length: " ); - Serial.println( EEPROM.length() ); - + Serial.print("EEPROM length: "); + Serial.println(EEPROM.length()); + //Print the result of calling eeprom_crc() - Serial.print( "CRC32 of EEPROM data: 0x" ); - Serial.println( eeprom_crc(), HEX ); - Serial.print( "\n\nDone!" ); + Serial.print("CRC32 of EEPROM data: 0x"); + Serial.println(eeprom_crc(), HEX); + Serial.print("\n\nDone!"); } -void loop(){ /* Empty loop */ } +void loop() { + /* Empty loop */ +} + +unsigned long eeprom_crc(void) { -unsigned long eeprom_crc( void ){ - const unsigned long crc_table[16] = { - 0x00000000, 0x1db71064, 0x3b6e20c8, 0x26d930ac, - 0x76dc4190, 0x6b6b51f4, 0x4db26158, 0x5005713c, - 0xedb88320, 0xf00f9344, 0xd6d6a3e8, 0xcb61b38c, - 0x9b64c2b0, 0x86d3d2d4, 0xa00ae278, 0xbdbdf21c - }; - + 0x00000000, 0x1db71064, 0x3b6e20c8, 0x26d930ac, + 0x76dc4190, 0x6b6b51f4, 0x4db26158, 0x5005713c, + 0xedb88320, 0xf00f9344, 0xd6d6a3e8, 0xcb61b38c, + 0x9b64c2b0, 0x86d3d2d4, 0xa00ae278, 0xbdbdf21c + }; + unsigned long crc = ~0L; - - for( int index = 0 ; index < EEPROM.length() ; ++index ){ - crc = crc_table[( crc ^ EEPROM[index] ) & 0x0f] ^ (crc >> 4); - crc = crc_table[( crc ^ ( EEPROM[index] >> 4 )) & 0x0f] ^ (crc >> 4); + + for (int index = 0 ; index < EEPROM.length() ; ++index) { + crc = crc_table[(crc ^ EEPROM[index]) & 0x0f] ^ (crc >> 4); + crc = crc_table[(crc ^ (EEPROM[index] >> 4)) & 0x0f] ^ (crc >> 4); crc = ~crc; } return crc; diff --git a/libraries/EEPROM/examples/eeprom_get/eeprom_get.ino b/libraries/EEPROM/examples/eeprom_get/eeprom_get.ino index 6620999..bbebc48 100644 --- a/libraries/EEPROM/examples/eeprom_get/eeprom_get.ino +++ b/libraries/EEPROM/examples/eeprom_get/eeprom_get.ino @@ -1,66 +1,68 @@ /*** eeprom_get example. - + This shows how to use the EEPROM.get() method. - + To pre-set the EEPROM data, run the example sketch eeprom_put. - This sketch will run without it, however, the values shown + This sketch will run without it, however, the values shown will be shown from what ever is already on the EEPROM. - + This may cause the serial object to print out a large string of garbage if there is no null character inside one of the strings loaded. - + Written by Christopher Andrews 2015 - Released under MIT licence. + Released under MIT licence. ***/ #include <EEPROM.h> -void setup(){ - +void setup() { + float f = 0.00f; //Variable to store data read from EEPROM. int eeAddress = 0; //EEPROM address to start reading from - - Serial.begin( 9600 ); + + Serial.begin(9600); while (!Serial) { ; // wait for serial port to connect. Needed for Leonardo only } - Serial.print( "Read float from EEPROM: " ); + Serial.print("Read float from EEPROM: "); //Get the float data from the EEPROM at position 'eeAddress' - EEPROM.get( eeAddress, f ); - Serial.println( f, 3 ); //This may print 'ovf, nan' if the data inside the EEPROM is not a valid float. - + EEPROM.get(eeAddress, f); + Serial.println(f, 3); //This may print 'ovf, nan' if the data inside the EEPROM is not a valid float. + /*** As get also returns a reference to 'f', you can use it inline. E.g: Serial.print( EEPROM.get( eeAddress, f ) ); ***/ - - /*** - Get can be used with custom structures too. + + /*** + Get can be used with custom structures too. I have separated this into an extra function. ***/ - + secondTest(); //Run the next test. } -struct MyObject{ +struct MyObject { float field1; byte field2; char name[10]; }; -void secondTest(){ +void secondTest() { int eeAddress = sizeof(float); //Move address to the next byte after float 'f'. MyObject customVar; //Variable to store custom object read from EEPROM. - EEPROM.get( eeAddress, customVar ); - - Serial.println( "Read custom object from EEPROM: " ); - Serial.println( customVar.field1 ); - Serial.println( customVar.field2 ); - Serial.println( customVar.name ); + EEPROM.get(eeAddress, customVar); + + Serial.println("Read custom object from EEPROM: "); + Serial.println(customVar.field1); + Serial.println(customVar.field2); + Serial.println(customVar.name); } -void loop(){ /* Empty loop */ }
\ No newline at end of file +void loop() { + /* Empty loop */ +}
\ No newline at end of file diff --git a/libraries/EEPROM/examples/eeprom_iteration/eeprom_iteration.ino b/libraries/EEPROM/examples/eeprom_iteration/eeprom_iteration.ino index 650c90a..3673b47 100644 --- a/libraries/EEPROM/examples/eeprom_iteration/eeprom_iteration.ino +++ b/libraries/EEPROM/examples/eeprom_iteration/eeprom_iteration.ino @@ -1,12 +1,12 @@ /*** eeprom_iteration example. - + A set of example snippets highlighting the simplest methods for traversing the EEPROM. - - Running this sketch is not necessary, this is + + Running this sketch is not necessary, this is simply highlighting certain programming methods. - + Written by Christopher Andrews 2015 Released under MIT licence. ***/ @@ -18,40 +18,40 @@ void setup() { /*** Iterate the EEPROM using a for loop. ***/ - - for( int index = 0 ; index < EEPROM.length() ; index++ ){ + + for (int index = 0 ; index < EEPROM.length() ; index++) { //Add one to each cell in the EEPROM EEPROM[ index ] += 1; } - + /*** Iterate the EEPROM using a while loop. ***/ - + int index = 0; - - while( index < EEPROM.length() ){ - + + while (index < EEPROM.length()) { + //Add one to each cell in the EEPROM - EEPROM[ index ] += 1; + EEPROM[ index ] += 1; index++; } - + /*** Iterate the EEPROM using a do-while loop. ***/ - + int idx = 0; //Used 'idx' to avoid name conflict with 'index' above. - - do{ - + + do { + //Add one to each cell in the EEPROM - EEPROM[ idx ] += 1; + EEPROM[ idx ] += 1; idx++; - }while( idx < EEPROM.length() ); - - + } while (idx < EEPROM.length()); + + } //End of setup function. -void loop(){}
\ No newline at end of file +void loop() {}
\ No newline at end of file diff --git a/libraries/EEPROM/examples/eeprom_put/eeprom_put.ino b/libraries/EEPROM/examples/eeprom_put/eeprom_put.ino index 186cf95..fe8a9fb 100644 --- a/libraries/EEPROM/examples/eeprom_put/eeprom_put.ino +++ b/libraries/EEPROM/examples/eeprom_put/eeprom_put.ino @@ -1,28 +1,28 @@ /*** eeprom_put example. - + This shows how to use the EEPROM.put() method. - Also, this sketch will pre-set the EEPROM data for the + Also, this sketch will pre-set the EEPROM data for the example sketch eeprom_get. - + Note, unlike the single byte version EEPROM.write(), the put method will use update semantics. As in a byte will only be written to the EEPROM if the data is actually different. Written by Christopher Andrews 2015 - Released under MIT licence. + Released under MIT licence. ***/ #include <EEPROM.h> -struct MyObject{ +struct MyObject { float field1; byte field2; char name[10]; }; -void setup(){ +void setup() { Serial.begin(9600); while (!Serial) { @@ -31,15 +31,15 @@ void setup(){ float f = 123.456f; //Variable to store in EEPROM. int eeAddress = 0; //Location we want the data to be put. - - + + //One simple call, with the address first and the object second. - EEPROM.put( eeAddress, f ); - + EEPROM.put(eeAddress, f); + Serial.println("Written float data type!"); - + /** Put is designed for use with custom structures also. **/ - + //Data to store. MyObject customVar = { 3.14f, @@ -48,9 +48,11 @@ void setup(){ }; eeAddress += sizeof(float); //Move address to the next byte after float 'f'. - - EEPROM.put( eeAddress, customVar ); - Serial.print( "Written custom data type! \n\nView the example sketch eeprom_get to see how you can retrieve the values!" ); + + EEPROM.put(eeAddress, customVar); + Serial.print("Written custom data type! \n\nView the example sketch eeprom_get to see how you can retrieve the values!"); } -void loop(){ /* Empty loop */ }
\ No newline at end of file +void loop() { + /* Empty loop */ +}
\ No newline at end of file diff --git a/libraries/EEPROM/examples/eeprom_read/eeprom_read.ino b/libraries/EEPROM/examples/eeprom_read/eeprom_read.ino index 68c4ffc..25bc5d9 100644 --- a/libraries/EEPROM/examples/eeprom_read/eeprom_read.ino +++ b/libraries/EEPROM/examples/eeprom_read/eeprom_read.ino @@ -12,8 +12,7 @@ int address = 0; byte value; -void setup() -{ +void setup() { // initialize serial and wait for port to open: Serial.begin(9600); while (!Serial) { @@ -21,8 +20,7 @@ void setup() } } -void loop() -{ +void loop() { // read a byte from the current address of the EEPROM value = EEPROM.read(address); @@ -32,24 +30,25 @@ void loop() Serial.println(); /*** - Advance to the next address, when at the end restart at the beginning. - + Advance to the next address, when at the end restart at the beginning. + Larger AVR processors have larger EEPROM sizes, E.g: - Arduno Duemilanove: 512b EEPROM storage. - Arduino Uno: 1kb EEPROM storage. - Arduino Mega: 4kb EEPROM storage. - + Rather than hard-coding the length, you should use the pre-provided length function. - This will make your code portable to all AVR processors. + This will make your code portable to all AVR processors. ***/ address = address + 1; - if(address == EEPROM.length()) + if (address == EEPROM.length()) { address = 0; - + } + /*** - As the EEPROM sizes are powers of two, wrapping (preventing overflow) of an + As the EEPROM sizes are powers of two, wrapping (preventing overflow) of an EEPROM address is also doable by a bitwise and of the length - 1. - + ++address &= EEPROM.length() - 1; ***/ diff --git a/libraries/EEPROM/examples/eeprom_update/eeprom_update.ino b/libraries/EEPROM/examples/eeprom_update/eeprom_update.ino index 831056f..5e3db5b 100644 --- a/libraries/EEPROM/examples/eeprom_update/eeprom_update.ino +++ b/libraries/EEPROM/examples/eeprom_update/eeprom_update.ino @@ -1,13 +1,13 @@ /*** EEPROM Update method - + Stores values read from analog input 0 into the EEPROM. These values will stay in the EEPROM when the board is turned off and may be retrieved later by another sketch. - + If a value has not changed in the EEPROM, it is not overwritten which would reduce the life span of the EEPROM unnecessarily. - + Released using MIT licence. ***/ @@ -16,10 +16,11 @@ /** the current address in the EEPROM (i.e. which byte we're going to write to next) **/ int address = 0; -void setup(){ /** EMpty setup **/ } +void setup() { + /** EMpty setup **/ +} -void loop() -{ +void loop() { /*** need to divide by 4 because analog inputs range from 0 to 1023 and each byte of the EEPROM can only hold a @@ -33,35 +34,36 @@ void loop() turned off. ***/ EEPROM.update(address, val); - + /*** The function EEPROM.update(address, val) is equivalent to the following: - + if( EEPROM.read(address) != val ){ EEPROM.write(address, val); } ***/ - + /*** - Advance to the next address, when at the end restart at the beginning. - + Advance to the next address, when at the end restart at the beginning. + Larger AVR processors have larger EEPROM sizes, E.g: - Arduno Duemilanove: 512b EEPROM storage. - Arduino Uno: 1kb EEPROM storage. - Arduino Mega: 4kb EEPROM storage. - + Rather than hard-coding the length, you should use the pre-provided length function. - This will make your code portable to all AVR processors. + This will make your code portable to all AVR processors. ***/ address = address + 1; - if(address == EEPROM.length()) + if (address == EEPROM.length()) { address = 0; - + } + /*** - As the EEPROM sizes are powers of two, wrapping (preventing overflow) of an + As the EEPROM sizes are powers of two, wrapping (preventing overflow) of an EEPROM address is also doable by a bitwise and of the length - 1. - + ++address &= EEPROM.length() - 1; ***/ diff --git a/libraries/EEPROM/examples/eeprom_write/eeprom_write.ino b/libraries/EEPROM/examples/eeprom_write/eeprom_write.ino index f07446c..f9bea64 100644 --- a/libraries/EEPROM/examples/eeprom_write/eeprom_write.ino +++ b/libraries/EEPROM/examples/eeprom_write/eeprom_write.ino @@ -9,18 +9,19 @@ #include <EEPROM.h> /** the current address in the EEPROM (i.e. which byte we're going to write to next) **/ -int addr = 0; +int addr = 0; -void setup(){ /** Empty setup. **/} +void setup() { + /** Empty setup. **/ +} -void loop() -{ +void loop() { /*** Need to divide by 4 because analog inputs range from 0 to 1023 and each byte of the EEPROM can only hold a value from 0 to 255. ***/ - + int val = analogRead(0) / 4; /*** @@ -28,28 +29,29 @@ void loop() these values will remain there when the board is turned off. ***/ - + EEPROM.write(addr, val); /*** - Advance to the next address, when at the end restart at the beginning. - + Advance to the next address, when at the end restart at the beginning. + Larger AVR processors have larger EEPROM sizes, E.g: - Arduno Duemilanove: 512b EEPROM storage. - Arduino Uno: 1kb EEPROM storage. - Arduino Mega: 4kb EEPROM storage. - + Rather than hard-coding the length, you should use the pre-provided length function. - This will make your code portable to all AVR processors. + This will make your code portable to all AVR processors. ***/ addr = addr + 1; - if(addr == EEPROM.length()) + if (addr == EEPROM.length()) { addr = 0; - + } + /*** - As the EEPROM sizes are powers of two, wrapping (preventing overflow) of an + As the EEPROM sizes are powers of two, wrapping (preventing overflow) of an EEPROM address is also doable by a bitwise and of the length - 1. - + ++addr &= EEPROM.length() - 1; ***/ diff --git a/libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor.ino b/libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor.ino index 8104fcb..df73ade 100644 --- a/libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor.ino +++ b/libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor.ino @@ -85,7 +85,7 @@ void loop() { } //Read from or write to register from the SCP1000: -unsigned int readRegister(byte thisRegister, int bytesToRead ) { +unsigned int readRegister(byte thisRegister, int bytesToRead) { byte inByte = 0; // incoming byte from the SPI unsigned int result = 0; // result to return Serial.print(thisRegister, BIN); @@ -117,7 +117,7 @@ unsigned int readRegister(byte thisRegister, int bytesToRead ) { // take the chip select high to de-select: digitalWrite(chipSelectPin, HIGH); // return the result: - return(result); + return (result); } diff --git a/libraries/SPI/examples/DigitalPotControl/DigitalPotControl.ino b/libraries/SPI/examples/DigitalPotControl/DigitalPotControl.ino index b135a74..c7afcc0 100644 --- a/libraries/SPI/examples/DigitalPotControl/DigitalPotControl.ino +++ b/libraries/SPI/examples/DigitalPotControl/DigitalPotControl.ino @@ -36,7 +36,7 @@ const int slaveSelectPin = 10; void setup() { // set the slaveSelectPin as an output: - pinMode (slaveSelectPin, OUTPUT); + pinMode(slaveSelectPin, OUTPUT); // initialize SPI: SPI.begin(); } diff --git a/libraries/SoftwareSerial/examples/SoftwareSerialExample/SoftwareSerialExample.ino b/libraries/SoftwareSerial/examples/SoftwareSerialExample/SoftwareSerialExample.ino index f659133..d35303d 100644 --- a/libraries/SoftwareSerial/examples/SoftwareSerialExample/SoftwareSerialExample.ino +++ b/libraries/SoftwareSerial/examples/SoftwareSerialExample/SoftwareSerialExample.ino @@ -29,8 +29,7 @@ SoftwareSerial mySerial(10, 11); // RX, TX -void setup() -{ +void setup() { // Open serial communications and wait for port to open: Serial.begin(57600); while (!Serial) { @@ -45,11 +44,12 @@ void setup() mySerial.println("Hello, world?"); } -void loop() // run over and over -{ - if (mySerial.available()) +void loop() { // run over and over + if (mySerial.available()) { Serial.write(mySerial.read()); - if (Serial.available()) + } + if (Serial.available()) { mySerial.write(Serial.read()); + } } diff --git a/libraries/SoftwareSerial/examples/TwoPortReceive/TwoPortReceive.ino b/libraries/SoftwareSerial/examples/TwoPortReceive/TwoPortReceive.ino index 95881a6..2c501e5 100644 --- a/libraries/SoftwareSerial/examples/TwoPortReceive/TwoPortReceive.ino +++ b/libraries/SoftwareSerial/examples/TwoPortReceive/TwoPortReceive.ino @@ -42,8 +42,7 @@ SoftwareSerial portOne(10, 11); // on the Mega, use other pins instead, since 8 and 9 don't work on the Mega SoftwareSerial portTwo(8, 9); -void setup() -{ +void setup() { // Open serial communications and wait for port to open: Serial.begin(9600); while (!Serial) { @@ -56,8 +55,7 @@ void setup() portTwo.begin(9600); } -void loop() -{ +void loop() { // By default, the last intialized port is listening. // when you want to listen on a port, explicitly select it: portOne.listen(); diff --git a/libraries/Wire/examples/SFRRanger_reader/SFRRanger_reader.ino b/libraries/Wire/examples/SFRRanger_reader/SFRRanger_reader.ino index d97a9e3..4d0a68f 100644 --- a/libraries/Wire/examples/SFRRanger_reader/SFRRanger_reader.ino +++ b/libraries/Wire/examples/SFRRanger_reader/SFRRanger_reader.ino @@ -12,16 +12,14 @@ #include <Wire.h> -void setup() -{ +void setup() { Wire.begin(); // join i2c bus (address optional for master) Serial.begin(9600); // start serial communication at 9600bps } int reading = 0; -void loop() -{ +void loop() { // step 1: instruct sensor to read echoes Wire.beginTransmission(112); // transmit to device #112 (0x70) // the address specified in the datasheet is 224 (0xE0) @@ -44,8 +42,7 @@ void loop() Wire.requestFrom(112, 2); // request 2 bytes from slave device #112 // step 5: receive reading from sensor - if (2 <= Wire.available()) // if two bytes were received - { + if (2 <= Wire.available()) { // if two bytes were received reading = Wire.read(); // receive high byte (overwrites previous reading) reading = reading << 8; // shift high byte to be high 8 bits reading |= Wire.read(); // receive low byte as lower 8 bits diff --git a/libraries/Wire/examples/digital_potentiometer/digital_potentiometer.ino b/libraries/Wire/examples/digital_potentiometer/digital_potentiometer.ino index 4d1580a..5fb91fb 100644 --- a/libraries/Wire/examples/digital_potentiometer/digital_potentiometer.ino +++ b/libraries/Wire/examples/digital_potentiometer/digital_potentiometer.ino @@ -14,15 +14,13 @@ #include <Wire.h> -void setup() -{ +void setup() { Wire.begin(); // join i2c bus (address optional for master) } byte val = 0; -void loop() -{ +void loop() { Wire.beginTransmission(44); // transmit to device #44 (0x2c) // device address is specified in datasheet Wire.write(byte(0x00)); // sends instruction byte @@ -30,8 +28,7 @@ void loop() Wire.endTransmission(); // stop transmitting val++; // increment value - if (val == 64) // if reached 64th position (max) - { + if (val == 64) { // if reached 64th position (max) val = 0; // start over from lowest value } delay(500); diff --git a/libraries/Wire/examples/master_reader/master_reader.ino b/libraries/Wire/examples/master_reader/master_reader.ino index 2d2419b..ecab72a 100644 --- a/libraries/Wire/examples/master_reader/master_reader.ino +++ b/libraries/Wire/examples/master_reader/master_reader.ino @@ -12,18 +12,15 @@ #include <Wire.h> -void setup() -{ +void setup() { Wire.begin(); // join i2c bus (address optional for master) Serial.begin(9600); // start serial for output } -void loop() -{ +void loop() { Wire.requestFrom(8, 6); // request 6 bytes from slave device #8 - while (Wire.available()) // slave may send less than requested - { + while (Wire.available()) { // slave may send less than requested char c = Wire.read(); // receive a byte as character Serial.print(c); // print the character } diff --git a/libraries/Wire/examples/master_writer/master_writer.ino b/libraries/Wire/examples/master_writer/master_writer.ino index 9933cc2..5cbea11 100644 --- a/libraries/Wire/examples/master_writer/master_writer.ino +++ b/libraries/Wire/examples/master_writer/master_writer.ino @@ -12,15 +12,13 @@ #include <Wire.h> -void setup() -{ +void setup() { Wire.begin(); // join i2c bus (address optional for master) } byte x = 0; -void loop() -{ +void loop() { Wire.beginTransmission(8); // transmit to device #8 Wire.write("x is "); // sends five bytes Wire.write(x); // sends one byte diff --git a/libraries/Wire/examples/slave_receiver/slave_receiver.ino b/libraries/Wire/examples/slave_receiver/slave_receiver.ino index 53df274..8051d53 100644 --- a/libraries/Wire/examples/slave_receiver/slave_receiver.ino +++ b/libraries/Wire/examples/slave_receiver/slave_receiver.ino @@ -12,24 +12,20 @@ #include <Wire.h> -void setup() -{ +void setup() { Wire.begin(8); // join i2c bus with address #8 Wire.onReceive(receiveEvent); // register event Serial.begin(9600); // start serial for output } -void loop() -{ +void loop() { delay(100); } // function that executes whenever data is received from master // this function is registered as an event, see setup() -void receiveEvent(int howMany) -{ - while (1 < Wire.available()) // loop through all but the last - { +void receiveEvent(int howMany) { + while (1 < Wire.available()) { // loop through all but the last char c = Wire.read(); // receive byte as a character Serial.print(c); // print the character } diff --git a/libraries/Wire/examples/slave_sender/slave_sender.ino b/libraries/Wire/examples/slave_sender/slave_sender.ino index 26b9e52..d2e72bb 100644 --- a/libraries/Wire/examples/slave_sender/slave_sender.ino +++ b/libraries/Wire/examples/slave_sender/slave_sender.ino @@ -12,21 +12,18 @@ #include <Wire.h> -void setup() -{ +void setup() { Wire.begin(8); // join i2c bus with address #8 Wire.onRequest(requestEvent); // register event } -void loop() -{ +void loop() { delay(100); } // function that executes whenever data is requested by master // this function is registered as an event, see setup() -void requestEvent() -{ +void requestEvent() { Wire.write("hello "); // respond with message of 6 bytes // as expected by master } |